Noise, Vibration, & Harshness Diagnosis And Repair
Contents
1. Frequency The number of times a periodic vibration repeats itself in one second measured in Hertz Hz Hub Bolt Center The method of centering the road wheel that uses the tapers of the wheel nuts to position the wheel Hub Boss Center The method of centering the road wheel that uses the wheel centerhole to position the wheel Idle Vibration Body vibration produced when the vehicle is stationary and the engine idling Joint Angle The relative angle of the propeller input and output shafts Lateral Relating to the side or sides sideways Loudness Relative greatness in volume 86 GLOSSARY OF TERMS G INFINITI Masking Phenomenon whereby a louder noise drowns out a lower noise Mass Damper A weight added to shift the resonant frequency to the lower side thus absorb ing the vibration at the original resonance point Natural Frequency The characteristic frequency at which a component vibrates It is deter mined by the weight of the mass and the strength of the spring Noise A sound that is loud disturbing or uncomfortable Off the Car Balancer Equipment to measure and correct tire and wheel imbalance On the Car Balancer Equipment attached to a vehicle to measure and correct the imbalance of not only the tire and wheel but also all components that rotate along with the tire and wheel Oscillation A regular fluctuation in position as the regular swinging of a pendulum Pattern Noise2. Humming Whirring Popping Whining Listen for air intake noises or vacuum leaks Pinch hoses and listen for change in noises Remove intake components and hoses and listen for change in noises Part 2 Isolating Engine Vibrations If you have verified an engine speed related vibration use the following steps to further isolate the cause Visually inspect for Engine mount alignment and wear Inspect the rubber engine mounts If the mounts are not aligned correctly or are collapsed engine vibrations can be transmitted to the passenger compartment via the body and frame ISOLATING ENGINE AND DRIVELINE NOISES AND VIBRATIONS 31 G INFINITI Exhaust mounting Check for contact between the exhaust system and the body or frame Such contact can allow engine vibrations to be transmitted to the passenger compartment Normal condition Stopper interference Engine Insulator absorbs Vibrations are vibrations transmitted directly to the body On vehicles equipped with automatic transmissions apply the parking brake and place the selector lever in D range Release the parking brake and apply the service brakes Applying either the front brakes or rear brakes can change the transmission path of the vibration and can help you isolate the source of the vibration If the noise or vibration is not present with the vehicle stationary the condition is caused by the movement of the vehicle on the road These disturba
3. 3 Ifthe propeller shaft is not straight due to a center bearing support bearing off to one side the center support bearing should be repositioned to make the propeller shaft assembly as true or straight in line as possible To relocate the center bearing support hanger 1 Support the propeller shaft with a tall jackstand 2 Remove the center bearing hanger bolts 3 Move the hanger to either side of the body as needed without removing the propeller shaft from the rear of the transmission or transfer case slip yoke type Drill two new holes in the hanger support frame member and reinstall the bolts Run a string down the center of the rear axle to the center of the transmission output shaft verifying true alignment of the propeller shaft 6 Lower the vehicle and perform another road test validating your repair If the launch shudder is still present inspect driveline angles as mentioned previously Before Relocate center bearing to make propeller shaft as Rear straight as possible Axle After Recheck The repair should be rechecked under the same conditions used to verify the concern Make sure that the original vibration has been repaired and no new vibrations have appeared 44 ISOLATING ENGINE AND DRIVELINE NOISES AND VIBRATIONS INFINITI ISOLATING TIRE AND ROAD NOISES Noises that are related to motion are caused by suspension parts body panels tires or road conditions To isolate the cause of such a
4. CONSULT III plus Ae INFINITI CONSULT III Latest TSBs CONSULT IT NATS amp Keycode 70Z Roadster Masters and Seniors Specialty Tools TECH LINE Support Tech Support Info Tools amp Equipment Nirtual Academy ASIST Support amp BRAKE SYSTEM BR B ENGINE MECHANICAL EM eg 2 10005 Infiniti Drive Belt System Noise Diagnosis E FRONT AXLE amp es a niti Wheel Bearing Collision Damage RH HEATER amp AIR CONDITIONER HA 1TB07007 2007 2009 G35 Sedan G37 EX35 Tapping Noise From Dash Area When Engine is amp REAR AXLE amp SUSPENSION RA BEG re09018 infinit cickine amp TRANSFER CASE TF B ume Whine Noise Vibration From Transfer Case SIR videos can be viewed on the Technician Home screen of Virtual Academy 2 Tech Talk fea tures articles that address problems with squeaks rattles and in this example wind noise Lastly the ASIST Search function can be used to check for applicable TSBs 72 SQUEAKS AND RATTLES INFINITI Squeak and Rattle Repair Special Service Tools The actual shapes of Kent Moore tools may differ from those of special service tools illustrated here Tool number Description Kent Moore No The ESM lists some of the J 39570 Locating the noise Special Tools available Chassis ear through Kent moore as well as commercial tools This manual suggests the Tea Removing tim components Engine Ear as a useful listen Trim Tool Set
5. These drive shaft assemblies are not serviceable PDIA0983J 34 ISOLATING ENGINE AND DRIVELINE NOISES AND VIBRATIONS INFINITI Propeller Shaft Imbalance The most common cause of driveline vibrations on rear drive vehicles is the propeller shaft The propeller shaft transmits power from the transmission to the differential It is an exposed drive component and therefore can be damaged during vehicle operation Additionally because the propeller shaft is serviceable removal and installation procedures are also critical for smooth vibration free operation There are three major sources of vibration related to propeller shafts They are Assembly tight u joint or alignment s Balance Angle Assembly At the factory all propeller shafts are balanced prior to installation on the vehicle and aligned during assembly Propeller shaft alignment can be upset however when the vehicle Is serviced causing a new vibration to develop For example if the propeller shaft has been incorrectly installed following transmission repairs and creates a vibration the technician can be misled into thinking the vibration is coming from the transmission NOTE To avoid this situation whenever the propeller shaft is removed always mark it so it can be reinstalled in exactly the same position as before removal Vehicles that have a two piece propeller shaft have a center support bearing that is in some cases is serviceable During cent
6. When using diagnostic tools CONSULT III multi meters etc be sure to check the on screen results yourself and hand the tool to the other members of your group so they can confirm the results as well lf you are expected to test or remove and inspect a component perform these proce dures yourself and give the same opportunity to other members of your team INFINITI Be patient Everyone works at different speeds You are responsible to be able to perform each module objective and you are responsible to ensure that others working with you can complete the skill check Complete all questions on the worksheet In some cases the worksheet may give you the opportunity to skip some steps for example you may not need to follow the instructions for booting CONSULLT III if you are already confident using the tool If your co workers wish to complete these instructions be patient as they perform these steps Treat the training center vehicles as if they were a customer s car However if you damage a vehicle in the course of completing a module notify the instructor immediately Some components such as trim pieces or wire connectors may be damaged during testing We expect these occasional problems and need to know about them as soon as they occur Return the vehicle to the condition it needs to be in for the next group of technicians to complete the workstation For example reset the bugs if applicable return tools to the
7. the noise Listen carefully for a change in the noise level being amplified by the sensing device If necessary road test the vehicle and have another person listen for the noise while driv ing 26 NVH DIAGNOSTIC TOOLS INFINITI 7 When the general area of the noise is identified pinpoint it by slowly moving back and forth over that general area 8 Once you have isolated the noise location perform necessary repairs and retest the area to verify the repair STEELMAN ChassisEAR The STEELMAN ChassisEAR is a versatile electronic listening device which can be used to detect and amplify noises It consists of a control box with 6 switchable channels a set of 6 leads with microphone clamps and a set of headphones To accurately diagnose a variety of noises it is typically used while road testing a vehicle which has a rattle or other hard to diag nose symptoms Noises may change relative to vehicle load and speed and therefore are not as easy to diagnose while the car is on a hoist J 39570 Electronic Listening Tool ChassisEAR tm Features Quickly locates problems under chassis usually in one road test Includes 6 clamp on microphones for use under chassis 6 way switch to listen to each microphone separately Also listens to fuel injectors and solenoids Can be used under hood or inside vehicle Comes with battery and ABS plastic case NVH DIAGNOSTIC TOOLS 27 G INFINITI Use it t
8. 1 H Test Drive A Test Drive is required when the Type of noise Location of the noise Conditions under which the noise occurs cannot be determined and confirmed through other means 70 SQUEAKS AND RATTLES G INFINITI Tips for Completing the Test Drive Both test drives must be performed by the same person under the same conditions to insure that the problem repaired was the customer s original concern At times it may be necessary to drive the vehicle with the customer a third time to have them verify the repair This is important when dealing with possible Lemon Law customers The key is to gather the information and confirm it with the customer If the information is not confirmed with the customer you may end up repairing the wrong noise Gathering squeak and rattle information may require the Service Advisor to spend more time communicating with the squeak and rattle customer than with other customers Good com munication skills can make this interaction as efficient as possible Squeak and rattle customers should be scheduled when the Advisor has a sufficient amount of time to spend with them This usually isn t during the morning write up or closing time pick up f your dealership makes appointments inform the customer at the time the appointment is made that a test drive may be required and prepare them for the time needed If a squeak and rattle customer use
9. Second order vibrations are usually torque sensitive and generally are worse as the vehicle is under a load during start out or under acceleration The most common type of second order driveline vibration is launch shudder This is when the vibration occurs from a standing start at speeds of 1 to 25 mph The vibration appears as a low frequency shake wobble or shudder The vibration is generally felt in the seat or steering wheel at low speed 0 to 15 mph and increases in frequency as vehicle speed increases Eventually it feels more like a driveline roughness at higher speeds 15 to 25 mph Above this speed the vibration generally disappears Because of the transitory nature of the vibration it is generally dif ficult or even impossible to acquire frequency information with the Sirometer or EVA unit Lateral Alignment Use the following procedure when a two piece propeller shaft is out of alignment due to an incorrectly aligned center bearing The lateral alignment should be inspected and adjusted if necessary before measuring and adjusting driveline angles 1 With the vehicle on a hoist and the rear axle supported by either the hoist or tall support stands run a string down the center of the rear axle to the center of the transmission out put shaft 2 Inspect the center bearing for placement in a straight line between the rear axle and trans mission ISOLATING ENGINE AND DRIVELINE NOISES AND VIBRATIONS 43 INFINITI
10. 13 14 15 16 17 18 19 20 21 22 23 Connect the vibration sensor to input A Place the sensor where the vibration is noticeable facing Up Clamp the inductive probe of the timing light around the trigger wire loop at the top of the EVA Attach the power cable to the cigarette lighter socket Change the display from RPM to Hz by pressing the RPM Hz button Press the STROBE key on the keypad and follow the prompts to set the filter range Set the filter range so that it includes the frequency shown on the top line of the EVA dis play Select the range that is closest to that frequency for greatest accuracy The three ranges are Full Range 35 Hz 45 Hz 45 Hz 55 Hz Position the vehicle on a lift Raise and support the vehicle on jack stands both front and rear Make sure the propeller shaft is at the same angle as if the vehicle were being driven Start the engine Place the transmission in gear and accelerate to the speed at which the vibration is stron gest Hold the speed constant while performing the Strobe Balance Look at the display screen on the EVA Make sure it is in ACTIVE mode It won t work in FRZ or RECORD modes The display shows the strobe amplitude Strobe Amp frequency Strobe Frq and range of the strongest vibration frequency If the frequency is not on the top line of the display the test will be inaccurate Have someone under the vehicle aim the timing light at the pro
11. A loose weatherstrip can be caused by broken or missing mounting clips or damage to the weatherstrip If the problem is limited to a small area the weatherstrip can be bonded to the body with adhesive Thoroughly clean the body surface with a body solvent Apply a small amount of black RTV silicone adhesive sealant to the backside of the weather strip Hold in place with tape until the silicone adhesive sealant has cured Body Lip Damage Some types of weatherstrips are installed on a raised lip of the body sheet metal It is possible for this lip to become bent out of alignment and prevent the weatherstrip from sealing To repair this type of damage Carefully pull the weatherstrip off the raised lip Straighten the lip with pliers or body tools Reinstall the weatherstrip and check it for correct alignment Shim to Increase Sealing Pressure If an air leak is small and occurs in only a short section of the weatherstrip you may be able to eliminate the problem with a piece of plastic shim material Attach a small shim or a piece of closed cell sponge sealing material under the weatherstrip Press the weatherstrip into place This will exert additional pressure on the weatherstrip seal ing surface and improve the seal along the sealing surface of the body WIND NOISE AND TURBULENCE 63 G INFINITI Body Repair It is possible for the body surface where the weatherstrip seals to be distorted If you have i
12. Do NOT replace the mirrors for this incident if it should occur n See this bulletin for further detail Do not install the disk 3 NTBOS072 Folding Door Mirror Wind Noise that came in your C III plus kit TECH LINE Support Tech Support Info Virtual Academy ASIST Support Ess 5 NTB10100 Maxima And Altima Coupe Driver Or Passenger Power Seat Will Not Move For fse 5 NTBO9085 Maxima And Altima Sedan And Coupe Cup Holder Lid Will Not Open Or Close a C III plus software is ee NTB99060 Nissan Paint Swell Stain Spot Under Paint Guard Film automatically E JNTB09091 Sunroof Wind Noise downloaded on your CONSULT computer g NTB09081 Windshield Cracking with ASIST updates In the example shown a Wind Noise issue was identified among the Service Bulletins listed for a 2009 Altima The TSB identifies a simple repair by taping a seam on the mirror The TSB NTB10 040 describes how to first confirm that the mirror is the cause of the noise and then details repair procedures to eliminate the problem You may also search for problems by Symptom The Symptom Diag tab is shown next to the CONSULT Codes tab 6 Squeak amp Rattle Resources INFINITI E CONSULT CONSUL Latest T TSB Se d CONSULT II Service NATS amp Keycode Manuel Specialty Tools TECH LINE Support Tech Support Info Tools amp Equipment Virtual Academy ASIST Support In the example screen above t
13. NVH in DLN section NHV in DLN section NWH in WT section Possible cause and SUSPECTED PARTS Rotor deformation Rotor deflection Rotor thickness variation Drum out of round Rotor rust x DRIVE SHAFT x AXLE AND SUSPENSION NVH in FAX RAX and FSU RSU section x Pads damaged x Pads uneven wear x DIFFERENTIAL x ROAD WHEEL Noise Symptom BRAKE Shake x x PROPELLER SHAFT x x STEERING Shimmy Judder x Applicable Following the links in the NVH chart the ESM directs to Pad Inspection if the vehicle has a symptom of brake noise BRAKE PAD Inspection and Adjustment INSPECTION 2 Piston Type Check brake pad wear thickness from an inspection hole on cylinder body Check using a scale if necessary Limit Wear thickness Refer to BR 66 Front The addition in the ESM of NVH Troubleshooting charts and Squeak and Rattle Diagnosis sec tions targets some of the most common customer concerns Refer to these sections as well as TSBs SIR Videos and eLearning programs on Virtual Acad emy to identify the most likely causes of noises or vibrations 2 Squeak amp Rattle Resources ISSA INFINITI The Work Flow chart below identifies a process designed to fix the problem right the first time SQUEAK AND RATTLE TROUBLE DIAGNOSES Work Flow Customer Interview Duplicate the Noise and Test
14. knock sound Here are some knock characteristics hollow sounding sometimes repeating often brought on by driver action Tick A clock makes the most common tick sound Com mon tick characteristics include light contact of light materials loose components can be caused by driver action or road conditions Thump A heavy muffled knock noise Here are some thump characteristics softer knock dead sound often brought on by activity 76 T INFINITI Buzz A hummingbird or bumblebee makes a buzzing noise high frequency rattle firm contact Squeak and Rattle Verification and Repair Steps Squeaks and rattles are normally caused by a simple problem but finding the source can be dif ficult The following will help you save time when troubleshooting squeak and rattle problems Verification Techniques Duplicate verify noise Recreate conditions starts stops turns accel decel braking etc Drive on rough roads Recreate with pressure Jounce bounce the vehicle Use floor jack to recreate vehicle twist Isolation Techniques Isolate change noise to verify Secure components Remove parts to expose source Press on parts to stop noise Look for loose components Look for witness marks of contact Use mechanics stethoscope Use Steelman Chassis Ear SQUEAKS AND RATTLES 77 G INFINITI Squeaks
15. 2 1 2 1 2 Combustion Pulses e e e e e e e e e e e e e e e e e e e e e e e e 4 stroke cycle 4 stroke cycle 4 stroke cycle Vibrations Caused by Misfire When misfire occurs as in the following example for a 4 cylinder engine the combustion pulses change This results in a disruption or change of the normal second order vibration While we don t know the exact frequency that will be produced by this misfire condition we do know that it is not a normal second order vibration In this example the X represents a misfire of the cylin der in second place in the fire order Misfire Occurring 4 Cylinder Crankshaft Revolutions 1 2 1 2 1 2 Combustion Pulses e A ES Z e X E Z e A ES E 4 stroke cycle 4 stroke cycle 4 stroke cycle If one cylinder misfires torque depression occurs once during every two turns of the crank shaft regardless of the number of cylinders This generates a half order vibration Usually this will not be very noticeable until higher engine torque or RPM is generated In other words mis fire at idle is not as apparent as misfire under heavy load or at high RPM 16 UNDERSTANDING THE ORIGINS OF VIBRATIONS ba G INFINITI FREQUENCY CONVERSION FORMULAS Frequency Calculations for Normal Engine Vibration The frequency of a normal engine vibration can be calculated using the engine RPM associated with the no
16. 5mm or 0 060 as wheel specification Hunter GSP9700 The Hunter GSP9700 measures RFV and provides a precise system for diagnosing and resolving problems caused by Road Force Variation in wheel tire assemblies The load roller shown under the machine hood is pushed against the rolling wheel assembly during testing The machine can provide both balance and RFV data If equipped software in the machine can then iden tify the best way to resolve vibration or tire pull that is caused by RFV Follow these general procedures when using the GSP9700 to measure RFV Set tire inflation to the recommended PSI Drive the vehicle at highway speed for about 20 miles This usually eliminates tire flat spots Confirm vibration is still present Refer to ASIST There are TSBs for specific Nissan and Infiniti vehicles that detail the proper procedures for testing RFV and may provide RFV specifications Q45 had recommended limits of 27 Ibs RFV for the front axle and Maxima recommend 15 lbs or less per wheel tire assembly Follow the GSP9700 instructions for mounting and measuring RFV and note the readings for each wheel tire assembly Hunter Engineering recommends less than 26 lbs as a general rule for RFV but some vehicles will require the readings below that recommendation Check ASIST for Nissan or Infiniti TSBs that provide specific RFV specifications If applicable follow instructions to set the Road Force Limits for th
17. Drive Check Related Service Bulletins Locate the Noise and Identify the Root Cause Repair the Cause Confirm Repair OK Inspection End This chart summarizes the Four Step Repair Process Verify the Symptom Isolate the Probably Cause Repair Recheck the Repair The Customer Interview and Diagnosis Worksheet are used to help Verify the Symptom The first page of the Squeak and Rattle worksheet suggests a test drive with the customer may be nec essary Nissan and Infiniti strongly recommend test driving with the customer before beginning any squeak rattle or wind noise diagnosis Squeak amp Rattle Resources ZC INFINITI Verify the Symptom Dear Customer We are concerned about your satisfaction with your vehicle Repairing a squeak or rattle sometimes can be very difficult To help us fix your vehicle right the first time please take a moment to note the area of the vehicle where the squeak or rattle occurs and under what conditions You may be asked to take a test drive with a service advisor or technician to ensure we confirm the noise you are hearing SQUEAK amp RATTLE DIAGNOSTIC WORKSHEET I WHERE DOES THE NOISE COME FROM circle the area of the vehicle The illustrations are for reference only and may not reflect the actual configuration of your vehicle The two page Diagnosis Worksheet should be kept with the work order for the purpose of sup porting warranty c
18. Given a vehicle with a concern of wind noise you will use a Steelman Engine Ear to identify the location of the air leak and the components or repairs necessary to repair the problem Given a vehicle with a NVH concern you will check ASIST and the ESM for information regarding the symptom You will then verify the problem and indicate the required repairs Given a wheel and tire assembly with Road Force Variation exceeding the recommended lim its you will use the Hunter GSP9700 to identify the tires RFV high spot You will then force match the wheel and tire assembly to minimize RFV viii INFINITI Course Procedures Class begins promptly at 9 00 a m Please be in your seat and ready to begin at 9 00 a m Please silence your cell phones Class ends when all the modules on the sign off page of your guidebook are initialed by the instructor Nissan designs training so that most technicians should be able to complete all activ ities in the time allotted for the course If you are unable to complete the requirements of the course in the time provided your instructor will discuss options with you to receive course credit You are responsible for learning the techniques and procedures featured in this course H is important you take as much time as you need to learn the skills presented in the course mate rial If you cannot complete the requirements of the course in the time provided your instructor will work with you and your
19. a clock second hand O coming to a stop O thump heavy muffled knock noise Ll on turns left right or either circle L buzz like a bumble bee CI with passengers or cargo LI other LI after driving miles or minutes TO BE COMPLETED BY DEALERSHIP PERSONNEL Test Drive Notes YES NO Initials of person performing Vehicle test driven with customer O O Noise verified on test drive IT E Noise source located and repaired O O Follow up test drive performed to confirm repair O O VIN Customer Name WO Date This form must be attached to Work Order SQUEAKS AND RATTLES INFINITI Squeak and Rattle Diagnostic Worksheet The Worksheet can be completed by the customer or by the Service Advisor while working with the customer s It s critical that the worksheet be filled out completely and correctly This will greatly assist the Technician in repairing the customer s complaint the first time The location of the noise should be identified on the front of the worksheet If the customer circles a broad area work with them to better define the location of the noise The back of the worksheet covers when the noise occurs This includes The time of day and conditions Driving conditions Type of noise Again try to pinpoint exact conditions with the customer The bottom portion of the backside of the worksheet should be completed by dealership personnel s This information verifies t
20. and closing the sunroof 2 Apply the soapy water solution to the vehicle exterior around the area where the noise exists Soapy Water Test 1 From inside the vehicle apply light air pressure to the suspected leak areas If there is air leakage bubbles will form on the vehicle exterior Don t stop after you ve tested just one area Test the entire weatherstrip sealing surface since there may be more than one leak 2 Following the test wash the tested area to remove all soapy residue Overview Verification and isolation are only the first two steps in the Four Step Repair Process After the isolation is complete there are various techniques that can be used to eliminate wind noise caused by air escaping past weatherstrip sealing surfaces 62 WIND NOISE AND TURBULENCE T INFINITI Weatherstrip Repair Procedures Inspection Visually inspect the weatherstrip in the problem area If the weatherstrip is out of place reinstall it Use the following repair procedures for other problems Heat Gun to Solve Distortion If the weatherstrip is only slightly distorted or wrinkled it may be possible to reshape it using a heat gun Heat the distorted area until it is soft and pliable Don t overheat Smooth out the distortion or wrinkle as the weatherstrip cools Hold the shape until it cools This procedure may have to be repeated several times for the weatherstrip to regain its original shape Use of Adhesive
21. as drive shafts Press the key again to return to the ACTIVE mode YES NO Keys These keys provide responses to questions posed by the EVA when programming the strobe for balancing operations Preparing the Electronic Vibration Analyzer EVA for Use Connect the cord from the vibration sensor into Input A on the top of the EVA e Plug the power cord into the vehicle s 12 volt accessory outlet cigarette lighter This instantly provides power since there is no ON OFF switch 22 NVH DIAGNOSTIC TOOLS o INFINITI The EVA always defaults to ACTIVE RPM mode Sensor Placement Proper operation of the EVA requires careful positioning of the sensor Placing the sensor near the location of the suspected vibration should produce the highest amplitude reading The sensor is directionally sensitive and must be placed so that the UP mark literally points up Never place the sensor on a component that is rotating driveshaft etc or extremely hot exhaust pipes etc This could damage the sensor or leads e The magnet provided with the kit allows the user to attach the sensor to metal ferrous com ponents Use the putty or Velcro strap to mount the sensor when it is not possible to use the magnet Data Information Averaging Item Description The three 3 most prominent vibration frequencies The frequency in RPM Hz of each vibration A bar graph showing the strength of each vibra
22. dealership and help you complete the course Text The text contains information relating to the procedures features and technology contained in the material of this course The instructor may assign reading from the text as homework and some of the text may help you answer questions included in the activities of this course Read the text section for detailed information regarding the technology featured in this training It is recommended that you save the text and use it in the future as a resource Course Map The course map indicates the order in which the modules should be completed In the case of some training courses certain modules must be completed before you begin other modules Modules 1 Begin the module by reading the Objective Relevance Resources and Skill Check on the first page This information will present the basis for the skills included in the module 2 Read each step carefully to determine the appropriate actions or procedures the modules are designed to impart 3 Pay attention to the Notes Cautions and Service Tips included in the module In many instances they will help you derive the answer to questions included in the module and will help you develop the skill sets intended by the design 4 You will probably be working with one or more technicians during this course Follow these basic guidelines to work effectively as a team Take responsibility to understand and perform each step yourself
23. independently However once the angle between the any two shafts varies from O degrees the U joint will move in a slight elliptical pattern This causes the driven shaft to speed up and slow down twice per revolution This acceleration and deceleration creates a vibration Second Order Driveline Vibrations As explained earlier first order driveline vibrations are mostly the result of excessive runout or imbalance of a driveline component Second order driveline disturbances are independent from these factors Due to the operational characteristics of U joints a vibration that occurs twice per revolution of the propeller shaft may occur As the propeller shaft rotates the U joints normally speed up and slow down twice for every rev olution of the propeller shaft As mentioned earlier a vibration which occurs twice per revolution is termed second order As the propeller shaft rotates the acceleration and deceleration of the U joints cannot always be seen but in the case of vibration complaints it may be felt or even heard Compare the U joint in a vehicle to a universal type socket found in every technician s toolbox Imagine using the universal socket to tighten a bolt As the angle for the socket increases to 90 the universal begins to bind and release as you turn the socket This bind and release occurs twice for each revolution of the socket This exact condition occurs in a vehicle s U joints as they operate throug
24. noise Inspect the shock absorbers and spring mounts Be sure the mounting bolts are tight and that the mounting bushings are not deteriorated Check for wind noise Wind noise results from air entering the passenger compartment Check for wind turbulence Turbulence is caused by air passing around components such as mirrors bumpers antennas or moldings Check for tire pattern noise This noise is caused by the tread patterns of certain tires on the road surface Tire pattern noise is airborne meaning that it is transmitted through the air to the passenger compartment Check for road noise Road noise is caused when the tires run across uneven or unusual road surfaces Sounding Position e Air pumping noise Slapping noise Slap Compression Expansion v Air e Sound transmitted via atmosphere Transmission DI Smooth surface Di Rough surface 3 Smooth surface ISOLATING TIRE AND ROAD NOISES 45 G INFINITI Tire Related Noises Road noise is created as the tire vibrates due to rough road surfaces High frequency vibrations occur due to suspension resonance These vibrations are transmitted to the body via the sus pension creating noises in the body panels which are heard in the passenger compartment Vibration source Slightly rough Tire vibrates due to slightly rough surface road surface D p O p COS pa O LU LF lL tw Transmission Route Tire e Vibrati
25. present at frequencies above and below the resonance point but at the point of resonance they are most noticeable The amplitude of a vibration is always greatest at the point of resonance This simply means that vehicle occupants will feel them and will likely be annoyed by them when the vibration s point of resonance is reached Masking Multiple audible sounds often occur simultaneously When this happens one sound is hidden by the others This is referred to as masking and can present a problem during noise diagnosis repairs After the audible noise has been repaired a noise that was masked initially now becomes apparent That bicycle is noisy too veal Service Tip An important initial step in the isolation of noises and vibrations is to determine whether the disturbance is caused by the engine or by some other vehicle com ponent or system Begin with a road test to verify the symptom During a road test note the engine speed RPM at which the noise or vibration is noticeable Dampers Because resonance presents such a great problem vehicles are manufactured with a number of dampers that absorb resonant frequencies These include cushions and shock absorbing devices that either absorb the vibrations or shift the resonance frequency The two principal types of dampers are mass dampers and dynamic dampers 12 Vibration fundamentals G INFINITI Mass dampers are additional weights that are added to the v
26. the cause Squeak amp Rattle Resources 5 INFINITI Isolate the Probable Cause ASIST should be checked to determine if there are any known causes for the customer com plaint ASIST 11 4 0 Switch to classic ASIST VIN Retrieve VIN Model Altima v Year 2009 Ga CONSULT III plus Bulletins k Service Manual CONSULT Codes Symptom Diag s Quick Reference Acc Install Instructions Campaigns 4 gt CONSULT II Featured NEWS __ RGENT Latest TSBs g TSB Search CONSULT IT E NTBO8O90 Door Panel Looks Discolored Faded AUTOMOTIVE SERVICE INFORMATION SUPPORT TERME Keyword Search mise 5 NTB10040 Fixed Door Mirror Wind Noise IF YOU CONFIRM A wind noise is coming from either fixed door mirror See ASIST CONSULT To determine the mirror s are the source of the noise refer to Step 1 in the SERVICE PROCEDURE section of this bulletin NATS amp Keycode Specialty Tools Newsletter under Latest TSB s or ACTION Click here for details Apply tape along the lower gap between the door mirror housing mirror and door mirror shell cover Refer to Step 2 in the SERVICE PROCEDURE section of this bulletin for repair procedure Use the parts supplied in the Tape Kit listed in the PARTS INFORMATION section of this bulletin CA plus Tools amp Equipment The mirrors do not need to be removed for this repair Software Notice NOTE
27. the parking brake is separate from the rear service brakes Refer to the service manual to identify such vehicles After this step begin a preliminary visual inspection Check the condition of the brake hardware such as springs clips calipers and wheel cylinders Inspect the pad or lining material for glazing presence of brake dust wear limits oil residue or other wetness Finally look at the rotors and drums Are they scored or discolored or are there uneven wear patterns Repairing Brake Noise Following noise isolation determine the necessary repair In some cases this means parts replacement but confirm that new parts are necessary Refer to the chart at the end of this sec tion for a summary of repairs for common brake noise symptoms Refer to the Symptom Diagnosis section in ASIST In many cases TBSs will provide specific procedures or replacement parts to address brake noise issues NTBOO 033d and ITBO0 024e are TSBs that identify various brake related noises and provide general service recommendations Use only the recommended lubricants for brake system ser vice 52 BRAKE NOISE S INFINITI PBC Poly Butyl Cuprysil or Molycoat 77 are usually specified for the high temperature applica tions like the brake pad shims or the contact area on the backing plate for brake drums Squealing or Squeaking Noise on Disk Brakes A major cause of brake squeal or squeak is the accumulation of brake dust on the drums or cal i
28. the seal The majority of air leaks usually occur around the upper area of the car around the windshield and down to about a foot below the belt line Loose Molding Any loose exterior molding especially the leading edge will disturb the air flow 56 WIND NOISE AND TURBULENCE G INFINITI Check all pieces of molding around the hood front fascia doors windows and sun roof for looseness Gaps Between Body Panels Gaps between the main body panels the hood the doors and trunk lid will disrupt the air flow and cause noise Make sure all body panels are aligned correctly Drip Molding Turbulence Check the metal drip molding attached to the upper edge of the body along the top section of both the front and rear doors Make sure the molding is snug up against the body and that there are no gaps along its entire length Sun Roof Gaps between the sun roof trim and the roof body panel will disrupt the air flow and cause noise Make sure all trim pieces are secured and are aligned correctly Externally Mounted Accessories Any after market accessory that has been installed can cause turbulence This is especially true of after market items not designed specifically for the vehicle which may disrupt normal airflow Examples Bug Screens Wind Deflectors Headlight Covers CB Radio Telephone Antennas Hang Ground Effects Wind Noise Inspection Overview Begin with a thorough check of the vehicle especially i
29. through hearing Sound is the product of vibrations caused by air pressure changes and has three principal char acteristics They are Loudness which is determined by the sound pressure felt by the ear The higher the pres sure the louder the sound The larger the amplitude the louder the sound Pitch which is determined by frequency The higher the frequency the higher the pitch Tone which is determined by wave form Due to their differing wave forms the note pro duced by a piano for example will sound different than the same note played by a violin For the purposes of this course we need to make the distinction between sound and noise While both refer to the vibrations caused by air pressure changes when we speak of noise it is used to describe unpleasant sounds For example the sound of a vehicle exhaust may not be unpleasant However vibrations emitted from the exhaust of a vehicle nearby can cause a boom ing noise to be heard in another vehicle 10 Vibration fundamentals G INFINITI All vibrations result in some noise As vibrations become more severe the noise associated with them also becomes more severe This chart indicates common passenger compartment noises and their associated vibration frequency ranges Typical Noises amp Associated Vibration Frequencies Passenger Compartment Noises Vibration Frequency Ranges Engine Related Noises Air Intake Noise 63
30. workbench or tool box and straighten up the work area Contact the instructor when you have completed the module and are confident you can perform the Skill Check stated on the first page Expect the instructor to review your worksheet and confirm that you have completed the objective Tell the instructor if you feel you need more practice If possible the instructor will provide you with additional information or give you the opportunity to work on the vehicle later that day Resources Resources may include ASIST CONSULT III service manuals digital multi meters hand tools special service tools and vehicle parts If the ASIST terminal is not working properly or has not been updated please notify your instructor Monitor the battery power for CONSULT III and connect it to the charger as needed For some courses we expect you to be comfortable using CONSULT III for testing the CAN system and accessing Self Diagnosis Data Monitor Active Test and Work Support Contact your instructor if you are not familiar using these applications Contact the instructor if you have any questions about using the listed resources or there is a problem with any of the resources you will need to complete the module PowerPoint Notes The PowerPoint slides are reprinted in your guidebook Refer to the Notes section of the book to follow the classroom presentation The classroom discussion highlights information you will practice during completion o
31. 5t Order Engine Hz Gear Ratio Driveline Hz Example 60 Hz 1 545 gear ratio 39 Hz FREQUENCY CONVERSION FORMULAS 17 G INFINITI Service Tip If the frequency of an incident vibration matches the calculated driveline fre quency suspect a driveline problem It could be caused by imbalance runout or excessive working angle Wheel Tire Vibration Frequency Calculations Wheel Tire vibration frequency can be calculated by using the driveline frequency divided by the differential gear ratio For this example we will use a driveline frequency of 39 Hz and a dif ferential gear ratio of 3 619 differential gear ratios can be found in the service manual Compute 15t order wheel tire vibration frequency with this formula Driveline Hz Differential Gear Ratio Wheel Tire Hz Example 39 Hz 3 619 Ratio 11 Hz Service Tip If the frequency of an incident vibration matches the calculated wheel tire fre quency suspect a wheel tire problem It could be caused by an out of balance condition excessive runout or physical damage such as a bent wheel Summary of Vibration Frequencies As a general rule 15t order vibrations resulting from rotating components will generate much lower frequencies than combustion induced vibrations Use the following chart as a reference in dealing with typical vibration concerns Rule of Thumb for Isolating Vibrations 18 order Wheel amp Tire Vibrations 10 20Hz 15t order D
32. 6380Hz Engine Noise Exhaust Noises 80 5000Hz Exhaust Resonance 15t Order 31 5 40Hz Exhaust Noise Muffler 60 3150Hz Transmission Transaxle Noises Transmission Control Lever Chatter 125 200Hz Final Gear Noise 400 800Hz Transmission Rattle 400 630Hz Transmission Gear Noise 500 1600Hz Transfer Gear Noise 4WS 630 1000Hz Interior Related Noises Instrument Panel Steering Shake 25 40Hz Indoor Cavity Resonance 63 80Hz Indoor Cavity Droning 155 160Hz Air Leakage Noise 315 3150Hz Wind Noise 400 8000Hz Tire Road Noise Road Noise 40 200Hz Tire Resonance 80 160Hz Tire Resonance Radial Bias 125 160Hz Vibration fundamentals 11 G INFINITI Resonance All objects have different frequencies at which they vibrate This is their natural frequency The engine propeller shaft and suspension all have natural frequencies which explains why vibra tions are only felt at certain engine RPM or road speeds For example the natural frequency of a vehicle s suspension system is about 15 Hz As the speed of an unbalanced tire increases with vehicle speed the vibration frequency of the tire also increases When the vibration frequency of the tire matches the natural frequency of the suspension the two frequencies produce a sud den large vibration The point at which this occurs is called resonance Vibrations are
33. Expansion noise as the air pressed between the tire tread and road surface expands Occurs with some tire tread patterns when driving on smooth road surfaces Phase A particular stage in a periodic phenomenon Pitch The auditory property of a note is conditioned by its frequency relative to other notes Radial Lines rays or spokes that emanate from a central point Radiator Mounting The method of isolating and attaching the radiator to the vehicle frame On front wheel drive vehicles the radiator mounting acts as a dynamic damper for vibrations Resonance Sound produced by a vibrating object in synchronization with a neighboringsound source Road Noise Noise produced by the vibrations of the tires due to harsh road surfaces Second Order Vibration The vibration that occurs two times per revolution of an object Shake Vibrations of the body and steering wheel in vertical or lateral direction at high vehicle speeds Static Balance The condition of equal torque on the left and right side of the axis of rotation Steering Shimmy Vibration of the steering wheel about its rotational axis at high speeds often caused by tire imbalance Sometimes occurs over bumpy roads at low speeds Squeak A short shrill cry or high pitched sound like scratching on glass Squeal A high pitched noise like tires when a vehicle brakes suddenly Tire Balance The dynamic equilibrium of the rotating tire and wheel assembly A tire and wheel a
34. GITC9980A gt Straight Trak LFM AAA Sh L REVISED SEPTEMBER 2011 This book is designed for instructional use only for authorized Nissan North America Inc and Nissan dealer personnel For additional information contact Nissan North America Inc Technical Training PO Box 685001 Franklin TN 37068 2011 Nissan North America Inc All rights reserved No part of this publication may be reproduced in any form without the prior written permission of the publisher Revised Printing September 2011 WE ENCOURAGE PROFESSIONALISM Training Department Technical Training INFINITI TRAINING PROVIDER Nissan North America Inc Training Department Technical Training We Support NAS TF NATIONAL AUTOMOTIVE SERVICE TASK FORCE This manual uses post ae consumer recycled o o Nissan North America Inc reserves the right to alter specifications or methods at any time e TETE Gv INFINITI NOISE VIBRATION AND HARSHNESS TABLE OF CONTENTS Section 1 Text Noise Vibration and Harshnes cssccscsssssssssssccccecessersnseeeceeeeeseeeensnneceneeesesensnnecneeeeseseessnsennneaeess 1 Squeak and Rattle ROSOUICES waisisecsccisisssssedinassnssinsiecaiiassanasinessiodenosisasseronansineusaddnssanacisessoninnessi 2 NVH Troubleshooting Charte 2 Squeak and Rattle Work E 3 Squeak and Rattle Diagnostic Worksheet ccsssssssecssessesssesesessesseeeesseseateneeensaeasanee
35. NNECTOR Learn how to easily this new EI COMING EVENTS April e Apr 10 May 22 LEAF Tactical Tour of CA e Apr 22 May 1 New York Auto Show Nissan Sponsored Events e Apr 11 SAE World Congress Detroit e Apr 15 17 World Challenge Series in Long Beach CA Apr 15 21 Nashville Film Festival in Nashville TN Apr 18 Boston Marathon in Boston MA Apr 27 May 1 SRAM Tour of the Gila in Silver City NM H 00 04 05 30 tal 52 Apr 29 May 1 World Challenge Series in Tooele UT e Apr 30 Country Music Marathon in Nashville TN SIR Vol 164 2 Squeaks and Rattles Squeaks and Rattles SIR Vol 164 1 Diagnosing May Sunroof Issues Introduction Nissan Sponsored Events e May 8 Gran Fondo New York Imrimire EI TRAINING PLAN Next Steps SIRs OBD II Systems Diagnosis and Repair Y Hybrid Specialist Y 1DFRT ILT Courses Take Course OBD II Systems Enroll Diagnosis and Repair EEMB Y Electrical Courses Online Course Take Course Intro to Climate Control v Electrical Courses Infiniti Course Take Course Advanced Automotive Enroll Elecrical Systems Climate Control Systems o e Operation and Diagnosis DECH e Uvhrid Cnorialict More Training Information Course IO GETTING STARTED PI TECHKNOWLEDGE Complete by 2 22 2011 Complete by 2 21 2008 Complete by 6 5 2011 3 30 2012 CAN and Multiplex Communication Basics Extending Battery Life Switch to classic ASIST
36. SES G INFINITI Radial Force Variation Radial Force Variation RFV is the term used to describe variations in stiffness in the sidewall of a tire All tires have some sidewall variation due to the overlapping of the plies during the con struction of the tire However this condition does not cause a problem unless the stiffness vari ation is excessive The most common symptom of a tire with excessive RFV is a first order vibration which produces a shake Today s vehicles with smaller side walls create greater stiff ness which may increase RFV All tires have some RFV Factory tires and wheels are assembled to minimize the effect of RFV on vehicle performance The illustration that follows shows the markings that are used to indi cate how the tire is positioned on the wheel to reduce the effects of RFV A red paint mark or a yellow tape strip on the tire indicates the point of the greatest tire RFV The green gray or white paint mark on the wheel is the point of minimum wheel runout During assembly these marks on the tire and wheel are aligned to minimize the effect of RFV on ride smoothness In addition factory installed tires have a yellow paint mark at the lightest point on the tire Mark of Minimum Radial Runout Point NOTE In the event that a non factory or replacement wheel is installed on the vehicle this mark can be aligned with the wheel valve stem opening to minimize the weight required during balanci
37. able repair 64 WIND NOISE AND TURBULENCE INFINITI SQUEAKS AND RATTLES In order to improve dealership F 1 Fixed Right the First Time performance in squeak and rattle repairs Nissan North America Inc has identified three primary areas for improvement by talking to dealerships like yours The areas are 1 Clarification and improvement of Warranty Policies 2 Understanding the customer s complaint through improved communications between the Customer Service Advisor and the Technician 3 Improved timely Technical Information utilizing ASIST This Squeak amp Rattle information is designed to highlight the changes in each of the above areas and provide you with a process for improving your performance diagnosis in these areas at your dealership Warranty Policies The warranty coverage for squeak and rattle repairs is as follows Nissan Warranty coverage for all non component replacement squeak amp rattle repairs is 36 months or 36 000 miles Infiniti coverage for all non component replacement squeak and rattle repairs is 48 months or 60 000 miles Not 12 12 Straight time is available for non component replacement labor only repairs Requires completion of Diagnostic Worksheet s Test Drive as required e No Trouble Found NTF will be reduced by process Cannot be sublet s All normal straight time claims documentation policies apply Refer to claims bulletin WB 98 021a for details o
38. an also be used to repair squeaks and rattles 74 SQUEAKS AND RATTLES T INFINITI UHMW teflon tape Insulates where slight movement is present Ideal for instrument panel applications 3M part 051131 06356 10 mm wide tape roll Silicone grease Used in place of UHMW tape when tape will be visible or tape will not fit Note Will only last a few months 999MP ABO02 Silicone Spray Use when grease cannot be applied 999MP A3010 Duct tape Used to eliminate movement Squeak and Rattle Characteristics Squeak Like tennis shoes on a clean floor Squeak characteris tics include the following SQUE e light contact fast movement brought on by road conditions E il SE E ee uP NN hard surfaces higher pitch noise SQUE SS s softer surfaces lower pitch noises edge to surface chirping Creak Like walking on an old wooden floor Here are some characteristics of a creak CPreak firm contact slow movement twisting with a rotational movement pitch dependent on materials often brought on by activity SQUEAKS AND RATTLES 75 Rattle The sound that a baby rattle makes is similar to the rat tles a vehicle can make These are the characteristics Rattle Ro of a rattle 9 der fast repeated contact vibration or similar movement loose parts missing clip or fastener incorrect clearance Knock A door knock is the most common
39. and rattles can be caused by many different components and conditions Therefore the correct material or repair procedure is important when fixing the noise Repair Techniques Use ASIST and the Nissan Squeak and Rattle Kit Stop Movement Remove contact Insulate Lubricate Tighten or loosen component Nissan and Infiniti recommend the use of Krytox GPL 105 lubricant to resolve a problem with a ticking or creaking noise caused by body side seals NTBO5 027 and ITB05 013 provide instructions for applying this lubricant to the side seals to eliminate this noise Instrument Panel The instrument panel and gauge cluster are prime areas for squeak and rattle concerns Most incidents are caused by contact and movement between 1 The cluster lid 1 and dash 2 Acrylic lens 8 and gauge cluster 4 Dash pad to A pillar garnish Dash pad to windshield Dash mounting pins Wiring harnesses behind the gauge cluster A C defroster duct and duct joint Io o e O Ze J 46534 D This set of plastic trim Trim tool set tools will aid in removing interior trim components when isolating squeaks or rattles 78 SQUEAKS AND RATTLES Gescht G o INFINITI Most of these incidents can be repaired by the application of non woven cloth tape or silicone spray in hard to reach areas Urethane pads can be used to insulate wiring harnesses CAUTION Do not use silicone spray to isolate a squeak o
40. ause and correction procedures for NVH customer concerns Given Vehicle 1 with a NVH problem you will test drive the vehicle and verify the nature of the noise vibration or harshness You will use a Sirometer to measure the vibration fre quency calculate the Order of the vibration and identify the cause of the problem Given Vehicle 2 with a NVH problem you will test drive the vehicle and verify a vibration felt in seat and steering wheel You will use an Electronic Vibration Analyzer to measure both the Frequency and G forces of the vibration and identify the cause of the problem Given Vehicle 3 with a NVH problem you will test drive the vehicle and verify a vibration at cruising speed You will use a Sirometer or EVA to isolate the frequency of the vibration problem then calculate and identify the component group causing the problem Given Vehicle 4 with a NVH problem you will test drive the vehicle and verify either a shimmy or shake in the steering wheel You will measure driveline components and identify any out of specification conditions that are causing the problem Given a vehicle with a 1 or 2 piece driveshaft you will measure the Driveshaft Working Angles You will identify any problems and recommend corrections for any working angles that exceed recommended specifications Given a vehicle with a NVH complaint you will use a Steelman Chassis Ear to identify the cause of chassis or driveline noises
41. component causing the noise General Component Removal Approach Automotive interiors are designed for assembly not disassembly Care must be used when repairing noise incidents Many clips can be broken or lost during the repair resulting in the cre ation of new noises Use the following strategy when removing components you are unfamiliar with 1 Use the Clip and Fastener information in the BT section of the Service Manual to identify proper clip removal procedures Each fastener is identified by a symbol or number in the diagrams found in the BT section Use ASIST to find the latest information on particularly hard to remove fasteners Identify and remove all screws nuts and bolts first Next remove all clips and other fasteners by gently prying on the component with the appropriate tool Try removing the piece from different angles if it doesn t easily move DO NOT use too much force 5 Make note of existing noise reduction materials when removing a component The material may be ineffective due to improper installation or age Many problems are repaired by applying noise reduction materials over existing materials 6 Don t apply too much noise reduction material The component still needs to function prop erly after the repair is complete SQUEAKS AND RATTLES 85 G INFINITI GLOSSARY OF TERMS Amplitude The maximum movement from zero during a single vibration oscillation Beat Noise A pulsating nois
42. created when the outside air rushes over the car s aerodynamic body and is then disturbed by an external projection This causes the air to swirl around the object thus creating turbulent noise Turbulence is a noise factor that is more difficult to isolate than wind noise since the noise is audible yet there is no air entering the passenger compart ment Isolating Turbulence Air flow around the car can be disturbed by any protruding object a misaligned body panel or any loose parts Isolate by completing a thorough visual inspection looking for conditions such as The leading edge of a door that is set out from the body which will disturb air flow Components like outside mirrors wiper blades and antennas that disrupt the normal air flow over the body s exterior surfaces Loose pieces of molding that can cause turbulence and also create additional noises Turbulence can also be caused by the conditions described in the following sections Air Leaks The majority of air leaks are caused by air rushing OUT of the car and not into it When the win dows are closed with either the air vents open or the air conditioner ON the interior of the car becomes pressurized This interior high pressure tries to equalize with the exterior low pressure and air will EXIT push out through any body panel or window seal opening On frameless windows the air pressure differential will actually force the upper edge of the glass out and away from
43. d increments are used 1 16 ounce 1 8 ounce etc If the weight added to the propeller shaft at the plant is slightly heavy or too light placing the hose clamp directly in line with or opposite the factory balance weight may be a good starting place 1 Road test the vehicle and verify the speed where the vibration severity is most noticeable 2 Eliminate tire imbalance by balancing the rear wheel tire assemblies 3 Road test a second time if necessary 4 Place the vehicle on a suitable axle contact hoist or jackstands so the rear axle is fully sup ported 5 Remove the rear wheels and brake drums if drum brake equipped Never apply the brakes when the brake drums are removed 6 Reinstall the lug nuts on the brake rotor if disk brake equipped Run the vehicle at a speed where the vibration is most noticeable CAUTION Keep all loose fitting clothing and or long hair away from the rotating propeller shaft when performing the following procedure 8 From beneath the vehicle gently hold a piece of chalk or tire crayon up to the rear portion of the rotating propeller shaft Do not allow the chalk crayon to make a mark all the way around the shaft 9 Allow the chalk or crayon to make very light contact with the rotation propeller shaft This identifies the high side of the shaft 10 Observe the chalk crayon mark If done correctly the mark identifies the heavy spot on the shaft as it deflected downward while the chalk cray
44. den tified either a high or low body area during your isolation step it must be repaired to restore the seal of the weatherstrip Low spots can be filled with plastic body filler caulking or sealer and then repainted High spots must be ground down and then repainted If the problem area is severe refer this repair to a body shop Gaps between the glass and its sealing surface can be repaired by aligning the glass Door adjustments can eliminate air or water leaks caused by the weatherstrip not sealing properly An adjustment can also eliminate outside air turbulence Realignment of the sunroof panel can eliminate air and water leaks To make these repairs follow the procedures described in the BT section of the service manual Window Adjustment If there are gaps between the glass and its sealing surfaces align the glass as described in the BT section of the Service Manual Door Adjustment If large sections of the weather strip are not sealing properly along the door edges the door may be out of alignment Align the door as described in the BT section of the service manual Sun Roof Adjustment If the glass and its sealing surfaces are out of alignment align the glass as described in the BT section of the Service Manual Recheck As a final step always complete a recheck of the repairs you have performed The recheck is the final step in the Four Step Repair Process and will insure a complete and accept
45. e 1st and 2nd Radial Harmonics on the GSP9700 48 ISOLATING TIRE AND ROAD NOISES RFV Measurement TIRE ROAD FORCE MEASUREMENT ASSEMBLY ROAD FORCE MEASUREMENT LATERAL RIM RUNOUT MEASUREMENT RADIAL RIM RUNOUT MEASUREMENT ASSEMBLY DIAGNOSIS COMPONENT EVALUATIONS INFINITI Current Runout amp Road Force NOTE Road force measurements can be Road Force affected by gro io zim mounting quality 12 bs Tir Assembly Lateral Rim Runout 0 019 Radial Rim e 0 016 E SS 0 039 IN N Diagnosis ForceMatching procedure will bring assembly within limit Apply rimtre chalk m iii then align them using a tire changer Tire Pass Inspect rim koala areas for Wang Component sugge since the ass as een is Forte Mate a Ser B mn mn EEA After Erei EE EEA Erei Runout EE In this example the assembly measures 39 lbs RFV The tire measures 12 lbs and the wheel has significant radial runout By matching the high RFV point of the tire with the low runout point of the wheel the total RFV can be reduced to within acceptable Hunter limits The tire would need to be remounted to the wheel to resolve this excessive RFV reading The GSP9700 displays a hand marking the rim and tire in the locations that should be matched to minimize RFV By selecting the Show After Force Matching button on the bottom of the screen display you could view the estimated RFV after remounting the tire with the chalk ma
46. e produced by a combination of two different close frequency sounds Booming Noise A prolonged low frequency resonant sound like distant thunder or artillery due to the cavity resonance of the passenger compartment Brake Chatter Abnormal vibration during braking due to grabbing surfaces usually accompa nied by noise Brake Squeal Shrill high pitched sound during braking often caused by hardened pads or uneven pad contact with the rotor Buffer Rod An engine mounting insulator used on front wheel drive vehicles to absorb engine vibrations Decibel dB The unit of measurement of sound Driveline All components that develop and transmit driving power from the engine to the driv ing wheels Dynamic Balance The equilibrium of a rotating object on its axis Dynamic Damper A damper comprised of a weight and spring designed to absorb resonant vibration at its original resonant point Engine Accessories Accessories driven off of the engine such as the alternator power steering pump and air conditioning compressor First Order Vibration The vibration that results from imbalance occurring one time per revo lution of an object Force Variation of tires Variation in tire sidewall rigidity that produce variations in tire rota tion Variation occurs in three directions radially radial force variation RFV laterally lateral force variation L F V and circumferentially tractive force variation T F V
47. e these can be used to sense frequency or RPM they are fairly expensive NVH DIAGNOSTIC TOOLS 29 ISSAN T INFINITI ASIST Nissan s Automotive Service Information Support Terminal ASIST provides technicians with the latest diagnosis and repair information The ASIST interface now lists TSBs that pertain to each vehicle model The interface also has a Keyword Search function that will enable techni cians to search bulletins based on a symptom such as noise vibration squeal or judder Information available on ASIST includes Technical Service Bulletins TSBs and Technical Tips Select a model or model year to search TSBs or Technical Tips Diagnostic Procedures To use this feature select a model or model year and then choose symptoms Wiring and Other Diagrams Located with every diagnostic procedure Service Date Specifications SDS Located when selecting the model model year Quick Reference and job type button s Service Manual Amendments Product Information and Campaign Bulletin Infor mation Located under the Information Tool Box button CONSULT Utilities Enables the capturing of data from the CONSULT unit and the cap tured data can be viewed in ASIST and then sent to TECH LINE Electronic Service Manual ESM Electronic Service Manuals ESM are taking the place of paper versions of service manuals By producing an electronic version of this widely used service p
48. ecomes unequal between the front and rear joints When universal joints operate at their designed angle variation they are almost bullet proof Problems occur when the vehicle is fitted with a suspension lift that places the universal joints at an extreme angle Propeller shaft angle is a critical factor in vibration isolation When verifying and isolating sus pected propeller shaft angle problems be sure to road test the vehicle under the exact condi tions specified by the customer for accurate diagnosis The driveline working angle does not refer to the angle of any one shaft but to the angle that is formed by the intersection of two shafts The procedure for measuring and correcting driveline working angles depends on whether the vehicle is equipped with a one or two piece propeller shaft The top image shows a slight angle between the output yoke and the drive shaft and a similar angle between the driveshaft and final drive flange If there are no angles the U joints won t move at all possibly damaging the journal bearings If the driveshaft angles are too extreme vibration may be felt as a shudder especially during acceleration from a standing start In this last example the driveshaft and final drive flange angles do not cancel each other and a second order vibra tion is likely to occur 40 ISOLATING ENGINE AND DRIVELINE NOISES AND VIBRATIONS T INFINITI Propeller shaft angle is particularly critical o
49. ehicle to shift the resonance fre quency Mass dampers are of specific weight and are bolted to the body at specific points to minimize the effect of the vibration at the original resonance point Typical mass damper Dynamic dampers consist of an additional weight and a spring action Dynamic dampers have the effect of creating two resonance points one on each side of the original one On some vehi cles components such as a rubber mounted radiator or a spare tire bolted to the trunk floor act as dynamic dampers to control noises and body vibrations at engine idle Typical dynamic dampers Radiator mounts Vibration fundamentals G INFINITI UNDERSTANDING THE ORIGINS OF VIBRATIONS Vibration Order When a rotating component is not balanced the imbalance causes additional centrifugal force to develop The heavy spot on a tire for example will create additional centrifugal force as the tire rotates resulting in an abnormal vibration Example As vehicle speed increases the heavy spot causes the tire to be lifted up and then forced downward again at increasing frequency At the same time the amplitude or severity of the vibration will increase This continues with every revolution of the tire A vibration of this type is called a 15t order vibration because it occurs one time for every revolution of the part If this tire rotates 12 turns a second a vibration of 12 Hz is generated Other examples of 15t order v
50. ehicle while wearing head phones Service Tip Important Make notes while driving as to what is heard rattles squeaks grinds whines etc at each channel When you return to the shop zero in on the exact location of the problem Begin by identifying which channel is loudest Then move other clips close to that same vicinity to pinpoint a specific location 28 NVH DIAGNOSTIC TOOLS INFINITI Inclinometer An inclinometer can be used to measure driveline angles By placing one of the flat surfaces on the component to be measured transmission driveshaft differential etc you can determine the angle of that component Though the service manual does not usually contain angle specifica tions you should look for minimal or equal angles when making measurements SPI TRONIC 5zi 31 0383 Digital protractor inclinometer The manual inclinometer protractor shown on the right can be used to for driveline angle measurements It will not reproduce the precise readings available with the digital inclinometer The magnetic base enables you to quickly check driveline angles Vibrating Reed Tachometer A vibrating Reed Tachometer is a hand held device which can be placed on a surface in the area of a vibration This device houses two rows of accurately calibrated reeds which will vibrate similar to a tuning fork vibrating when it is placed in contact with a part of the car which trans mits the vibration Whil
51. el assemblies Other conditions such as tire radial force variation RFV excessive propeller shaft angle tire pattern noise or brakes may also cause vibrations Squeaks and rattles sometimes require the use of special tools to effectively identify and repair the problem Wind noise and air leaks can also be isolated using some the procedures described in this book This text will describe the causes of common noise vibration or harshness issues and review the tools and diagnostic procedures available to technicians to effectively resolve these prob lems noise vibration amp harshness INFINITI SQUEAK amp RATTLE RESOURCES Nissan and Infiniti ESMs have information to support NVH related concerns Many chapters in the ESMs now have specific NVH Troubleshooting charts The example below is found in the Brakes chapter 7 Options x NOISE VIBRATION AND HARSHNESS NVH TROUBLESHOOTING QUICK REFERENCE INDEX E E SYMETOM DIAGNOSIS gt G Table of Contents SYMPTOM DIAGNOSIS SI SYMPTOM DIAGNOSIS NOISE VIBRATION AND HARSHNESS NVH TROUBLESHOOTING ENDS NOISE VIBRATION AND HARSHNESS NVH TROUBLESHOOTING NVH Troubleshooting Chart wg Bie Troubleshooting Chart DY PRECAUTION SI PREPARATION PERIODIC MAINTENANCE REMOVAL AND INSTALLATION SERVICE DATA AND SPECIFICATIONS SDS Use the chart below to find the cause of the symptom If necessary repair or replace these parts Reference page NWH in PB section
52. eps are Verify Isolate Repair and Recheck Each step is listed below along with activities and information that will help you to complete a thorough and accurate repair Verifying Brake Noise Before attempting to resolve any brake noise condition first determine the type of noise and the conditions under which the noise occurs Begin by road testing the vehicle and applying the brakes with light medium and heavy pressure Listen for the noise and try to determine whether it is a squealing or squeaking brake groan or brake creep During verification also note the con ditions at the time the noise is present For example What does the noise sound like Is it most noticeable with the brakes warm or cold Is the noise always present or does the noise only occur after a long drive or first thing in the morning Does the noise occur under a variety of pedal application pressures Does it occur when the brakes are first applied during the entire time the pedal is applied or just when the vehicle is almost stopped Is it more noticeable under certain humidity or weather conditions Isolating Brake Noise If you need to further isolate the noise to the front or rear brakes drive the vehicle at a slow speed on an unoccupied road or parking lot Apply the parking brake and try to duplicate the conditions under which the noise occurs If the noise remains the same it is being generated by the rear brakes On some vehicles
53. er bearing replacement always mark the propeller shaft prior to disassembly Incorrect reassembly of the two sections of the propeller shaft can produce an imbalance that will create vibrations Put matching marks on the rear propeller shaft flange yoke and the rear final drive companion flange as shown CAUTION For matching marks use paint Never damage the rear pro peller shaft flange yoke or the companion flange ISOLATING ENGINE AND DRIVELINE NOISES AND VIBRATIONS 35 G INFINITI Propeller Shaft Runout The ESM provides a specification for Propeller Shaft runout that varies from 0 60 mm for some models to as much as 1 02mm 0 040 If the runout exceeds specification the ESM may rec ommend the flange at the final drive be disconnected and the shaft reattached at 90 degree increments Runout should be inspected after each adjustment If the runout exceeds the spec in each measurement the propeller shaft should be replaced e After assembly perform a driving test to check propeller shaft vibration If vibration occurred separate propeller shaft from final drive Reinstall companion flange after rotating it by 60 120 180 240 300 degrees Then perform driving test and check propeller shaft vibration again at each point The example above is taken from a G37 ESM This vehicle features a 6 bolt Rebro joint If vibra tion is felt while driving after propeller shaft replacement the ESM recommends th
54. f the modules Make notes and ask questions during the discussion and you will learn information that will help you complete the worksheet objectives ov INFINITI Technician Creed and Code of Repair This vehicle is the personal property of the customer The customer s desire is I correctly service repair their vehicle today My desire is He She returns to my place of business for additional service and repairs unrelated to today s visit It is my choice regarding the quality of repair I make today I will do all I can to gain the customer s trust while servicing and repairing their vehicle ATTITUDE IS EVERYTHING INFINITI xii GC INFINITI G INFINITI NOISE VIBRATION amp HARSHNESS NVH concerns make up some of the most frequent customer complaints JD Powers ranked Wind Noise and Noisy Brakes 1st and 2nd respectively in their Initial Quality and 3 Year Old vehicle surveys Noise vibration and harshness are terms associated with a variety of conditions which are par ticularly annoying to customers They fall into the following broad categories Engine induced vibrations e Driveline induced vibrations Wheel tire induced vibrations Brake noises and vibrations Windnoises Squeaks and rattles Vehicle noises and vibrations occur for many reasons Some occur during the normal operation of the vehicle These include the engine transmission driveline and tire and whe
55. f the warranty policy Understanding The Customer s Complaint In this section of the seminar we will provide you with information that you can use to improve the process of writing up the squeak and rattle work orders Areas of emphasis will include the Diagnostic Worksheet and the Test Drive SQUEAKS AND RATTLES 65 Responsibilities Customer Describes Concern to the Service Advisor J Service Advisor Gathers the Information from the Customer Com municates the Symptom to the Technician J Technician Diagnoses and Repairs the Noise Service Advisor Process The Service Advisor Completes the Diagnostic Worksheet s Determines test drive requirements Defines the type of noise from the customer information Confirms this information with the customer Writes the work order After the repair explains the repair to the cus tomer s Follows up with the customer G INFINITI The Diagnostic Worksheet is a helpful tool to improve communications and is required for war ranty payment 66 SQUEAKS AND RATTLES INFINITI 2 Dear Nissan Customer We are concerned about your satisfaction with your Nissan vehicle Repairing a squeak or rattle sometimes can be very difficult To help us fix your Nissan right the first time please take a moment to note the area of the vehicle where the squeak or rattle occurs and under what conditions You may be asked to take a test drive
56. g conditions does the noise occur a At what speed do you notice the noise b What were the road conditions C Is the noise apparent when all accessories are in the OFF position or does it occur with the air conditioner or heater on D Where is the location of the noise a Internal b External 6 To determine the origin of an external noise following the road test A Visually inspect for protruding components and misaligned body parts as described in this text B Starting at the front of the car use masking tape and mask off different parts of the body one area at time With the tape in place road test the car again to isolate the source of the noise If the noise disappears or changes with the tape in place you know you have located the possible problem source Repeat the taping and removal process until you have isolated the exact location 7 To determine the origin of an internal noise during the road test A Use an EngineEAR stethoscope or a piece of small diameter hose as a listening device Place one end of the hose near your ear and then run the other end along the 58 WIND NOISE AND TURBULENCE G INFINITI wind noise area This will help to pinpoint the exact location If successful mark the loca tions and complete a visual inspection following the road test Visual Inspection 1 Check for body panel alignment Run your hand along the side of the body panels and also sight along the length of t
57. gine trans mission assembly and to the differential ISOLATING ENGINE AND DRIVELINE NOISES AND VIBRATIONS 41 Ze T ISSAN INFINITI On a vehicle with a one piece propeller shaft such as illustrated below equal working angles on the front and rear universal joints will cancel the 2nd order vibration Sleeve Yoke Propeller Shaft Flange Yoke As a general rule the smaller the angle the less vibration is likely to occur Some manufacturers suggest that working angles should not exceed 4 degrees TSB NTB07 054b describes a procedure for shimming the rear axle spring seats on the Nissan Titan This procedure changes the working angle at the flange yoke and addresses a problem with steering wheel vibration between 25 and 40 MPH Two piece propeller shafts have three working angles present instead of two as with the one piece system The first or front working angle is formed by the angle of the output shaft of the transmission and the angle of the front propeller shaft The second or middle working angle is formed by the angle of the front propeller shaft and the angle of the rear propeller shaft The third or rear working angle is formed by the angle of the rear propeller shaft and the angle of the pinion yoke of the rear axle Front Propeller Shaft Rear Propeller Shaft Sleeve Yoke Flange Yoke This means there is an odd joint in the system which does not have another joint to provide cancellatio
58. h an angle The greater the angle placed on the shafts the more pronounced the effect Because the transmission out put speed remains constant the binding and releasing of the U joints could be described as accelerating and decelerating that occurs two times per propeller shaft revolution When run ning the propeller shaft at a low rate of speed you should be able to view the accelerating and decelerating effect This speeding up and slowing down can create a vibration due to the fluctu ations in force that are generated at high speeds ISOLATING ENGINE AND DRIVELINE NOISES AND VIBRATIONS 39 INFINITI Drivelines are designed in a manner that allows for acceleration deceleration to be cancelled out so a smooth and constant power flow is produced The transmission drives the front yoke of the driveshaft at a smooth and constant speed As the power travels through the first U joint it fluctuates twice per revolution of the shaft The second U joint is oriented or positioned in a manner that allows the power flow to fluctu ate opposite that of the first joint As the first joint is slowing down or binding the second joint is speeding up or releasing the binding which occurred a moment ago This binding and releasing creates the effect of one U joint canceling out the other which results in a smooth constant power flow from the output yoke of the propeller shaft Second order driveline vibration occurs when the cancellation b
59. hat the dealer has taken the proper steps to diagnose repair and recheck the noise The types of noises or noise characteristics are also on the back of the worksheet The noise characteristics are provided so the customer Service Advisor and Technician are all speaking the same language when defining the noise Squeak like tennis shoes on a clean floor e Creak ke walking on an old wooden floor Rattle like shaking a baby rattle Knock like a knock on a door Tick like a clock second hand e Thump heavy muffled knock noise Buzz like a bumble bee The following tips provide methods for obtaining information during a customer interview Completing the Diagnostic Worksheet Listen carefully and avoid drawing conclusions or making assumptions Ask open ended questions to gain specific information Confirm the customer s complaint SQUEAKS AND RATTLES 69 ISSAN T S INFINITI Completing the Diagnostic Worksheet Test drive the vehicle if necessary Communicate through the work order Questions Where is the noise located When does the noise occur What does the noise sound like When did the noise start The Test Drive The Test Drive is a critical step in the squeak and rattle repair process Test Drive gt A With customer to verify the complaint H gt d By the same person to check the repair i
60. he vehicle again making certain that the symptom has been corrected Some service procedures covered in this section may only temporarily eliminate the condition For example if a squeal or squeak was caused by the presence of brake dust on the calipers as the brakes are used the dust will again collect and the noise will return Always explain to the customer that some noises develop as a result of use and may reoccur after the car has been driven BRAKE NOISE 55 G INFINITI WIND NOISE AND TURBULENCE As a vehicle travels at highway speeds it pushes aside the air in front of it creating wind noise and turbulence The air flow at the front of the car is deflected around the windshield and A pil lars creating high and low pressure areas in body surfaces behind it As the air passes over the windshield it creates a low pressure area along the windshield and the side windows This low pressure tends to pull the side windows outward away from their sealing surfaces Wind noise can be caused by misalignment of doors and body panels or by a torn or pinched weatherstrip Air turbulence can be caused by body components like outside mirrors wiper blades and antennas that disrupt the normal airflow over the body s exterior surfaces Air turbu lence may also create objectionable noise depending on its severity Wind noise is usually caused by air leaks that can be isolated and repaired but turbulence is another matter Turbulence is
61. he Symptom tab was used to search for Brake Noise for a G35 Two bulletins for Brake Squeal and Brake Judder are listed In the case of these examples the problems can repaired by following the procedures listed in the bulletins In some cases technicians will need to use the diagnostic techniques and special tools used during this NVH training course to isolate the cause of NVH complaints Virtual Academy The Technician Virtual Academy provides access to information about resolving NVH concerns Review available resources such as the eLearning program Intro to Noise Vibration and Harsh ness in addition to the following SIR videos SIR 130 Driveline Vibration Analysis s SIR 147 Wind Noise SIR 164 Diagnosing Sunroof Issues Tech Talk occasionally features articles covering topics such as Diagnosing and Eliminating Wind Noise Sunroof and Moonroof Inspections and Repairs Vehicle Shimmy and Tire Vibration Squeak amp Rattle Resources 7 G INFINITI VIBRATION FUNDAMENTALS Vibration is the repetitive motion exhibited by a moving object Vibration is a quivering or trem bling sensation It can be caused by a normal condition or a heightened abnormal condition This can be up and down like a jack hammer or back and forth like a pendulum This section covers the characteristics of vibrations detected through touch sound and sight Vibrations develop as a result of the engine combustion process or the ce
62. he car from both the front and rear and look for any protruding body panels Check the leading edges of the doors and sunroof to make sure they do not protrude from the body If the leading edge of the door or sunroof sticks out it will funnel air into the inte rior of the vehicle resulting in wind noise Check the weatherstrips around the suspected air leak areas for deterioration cuts abra sions or deformation A small cut or hole can create a loud noise at highway speed Check the sealing area where the body and weatherstrip meet Check for any raised sur face area or voids in the body that could prevent air tight contact with the weatherstrip Pressurization Check and Inspection Following a visual inspection pressurize the passenger compartment to check for air leaks To do this 1 Tape off all vehicle pressure relief valves in the trunk and doors roll up all windows and close the sunroof panel Turn the ignition ON and set the RECIRC switch to the fresh air position to allow outside air to enter the passenger compartment Set the air conditioning blower motor to the highest speed Get out of the vehicle and close the door Allow the air pressure to build up in the passen ger compartment Lightly moisten your hand with water to help you feel any air that is escaping from the vehi cle interior and slowly run your hand around the window and door openings to feel for air leaks as shown here Testing for Air Leaks fro
63. here are a series of three steps to follow when dealing with squeak and rattle comebacks 15t Repair Check for repair information using ASIST gnd Repair Check ASIST for new information then call TECH LINE put the TECH LINE incident number on the work order 3rd Repair Check ASIST for new information call TECH LINE for new information then contact your DTS for assistance before proceeding with the repair DTS instructions must be documented on the work order The following materials are contained in the Nissan Squeak and Rattle Kit Each item can be ordered separately as needed Nissan Squeak and Rattle Kit The following materials are contained in the Nissan Squeak and Rattle Kit Each item can be ordered separately as needed Urethane Pads thin Three different sizes to insulate connectors harnesses etc 76268 9E005 1 5 mm thick 100 x 135 mm 76884 71L01 1 5 mm thick 60 x 85 mm 76884 71L02 1 5 mm thick 15 x 25 mm Insulator foam blocks Two different sizes Insulates components from contact Can be used to take up space behind a panel 73982 9E000 45 mm thick 50 x 50 mm 73982 50Y00 10 mm thick 50 x 50 mm Insulator light foam block 80845 71L00 30 mm thick 30 x 50 mm Non woven Cloth FELT Tape Used to insulate where movement is not required Ideal for instrument panel applications 68370 4B000 15 x 25mm pad 68239 13E00 5 mm wide tape roll The following materials not found in the kit c
64. ibration area Human touch Vibration transmission route sense of Vi Gu 8 Vibration fundamentals Service Tip T INFINITI If rough road surfaces or engine torque are contributing to the vibration feel vehicle service will not eliminate those factors In such cases changing the transmission route or reducing the vibration at the oscillator is the best alter native solution Vibration Characteristics There are three characteristics of vibrations They are Cycle The repeated pattern of the vibration A cycle begins and ends at the same fre quency and then repeats over and over Cycle Frequency The speed of the vibration in a given period of time Frequency is measured in cycles per second The term used to describe cycles per second is Hertz abbreviated Hz The more cycles per second the higher the frequency the faster the vibration occurs Slow vibration a aes 3 Cycles per second or 3 Hz Fast vibration SAR A A 5 Cycles per second or 5 Hz Vibration fundamentals INFINITI Amplitude The magnitude or strength of the vibration The greater the amplitude the stronger the vibration is felt Relatively weak vibrations have a very low amplitude Large vibration Strong signal or High Amplitude Small vibration PTO Oe Noise Vibration Relationship Unlike vibrations that we detect through touch sound is a vibration we detect
65. ibrations are a crankshaft or propeller shaft with a single heavy spot This heavy spot causes an imbalance similar to a knot or heavy spot in the tire Example Suppose that a tire has two heavy spots opposite each other For every rotation of the tire there will be two instances in which the centrifugal force lifts the tire and forces it down ward Consequently a vibration will occur twice per tire revolution If this tire rotates 12 turns per second a vibration of 24 Hz is generated This is a 2d order vibration of the tire Two different components with 1 order vibrations may increase or decrease the amplitude of the problem but that is all These two 15t order vibrations could be caused by a tire crankshaft or a propeller shaft which is out of balance However two 1 order vibrations are not the same as a 2 order vibration 14 UNDERSTANDING THE ORIGINS OF VIBRATIONS G INFINITI Vibration Resulting from Engine Operation One source of engine vibration is crankshaft torque variation caused by combustion Another source of engine vibration is imbalance For example a crankshaft counterweight will cause the crankshaft to lift and be forced downward just as an imbalanced tire This will create a 15t order engine vibration designed to offset vibration caused by piston movement Vibration Caused by Normal Combustion To have a clearer understanding of the way engines produce vibrations as a part of the combus tion pr
66. ing tool The Squeak and Rattle sec tion of the Body Interior NISSAN Squeak and Ratte E EE chapter of the ESM listed D these particular tools In the section below the small copy of the ESM trou bleshooting section is typical Sona TT cern TTT OOF the new Squeak and Rat SES Lacatingitnerioise tle information in Nissan and M Infiniti ESMs Commercial Service Tools Generic Squeak and Rattle Troubleshooting INFOID 0000000006766202 Refer to Table of Contents for specific component removal and installation information INSTRUMENT PANEL Most incidents are caused by contact and movement between 1 The cluster lid A and instrument panel Acrylic lens and combination meter housing Instrument panel to front pillar garnish Instrument panel to windshield Instrument panel pins Wiring harnesses behind the combination meter A C defroster duct and duct joint These incidents can usually be located by tapping or moving the components to duplicate the noise or by pressing on the components while driving to stop the noise Most of these incidents can be repaired by apply ing felt cloth tape or silicone spray in hard to reach areas Urethane pads can be used to insulate wiring har ness CAUTION Do not use silicone spray to isolate a squeak or rattle If you saturate the area with silicone you will not be able to recheck the repair SQUEAKS AND RATTLES 73 INFINITI Squeak and Rattle Escalation Policy T
67. is re installa tion service procedure This procedure has the potential to minimize vibration that could be caused by either drive shaft imbalance or runout Balance An imbalanced propeller shaft will produce a 17 order vibration During factory assembly a bal ance weight is welded to the outside of the propeller shaft If a vibration is isolated to the propel ler shaft look for physical damage If a vibration appears to be related to imbalance check for overspray of undercoating Always check for universal joint binding before attempting to balance the propeller shaft Propeller Shaft Balancing The following information is intended to fine tune propeller shaft balancing with the propeller shaft mounted in the vehicle 36 ISOLATING ENGINE AND DRIVELINE NOISES AND VIBRATIONS Te T o INFINITI As an FYI the propeller shaft and differential pinion flange runout should be within specification regarding runout before attempting to balance the propeller shaft and related parts CAUTION All wheel drive and or four wheel drive vehicles locked in four wheel drive must have both front and rear wheels lifted off the ground When performing this proce dure use caution in preventing the engine from overheating Imbalance can be directly related to runout which makes the logical starting place the low point of the propeller shaft When propeller shafts are balanced during the manufacturing process balance weights in grad uate
68. ive Mode can be set as average AVG or non average in either RPM display or Hz display Keypad Operation J STROBE 4 RECORD 7 PLAY BACK EXIT Freez YES 0 RPM HZ 4 8 UE Ue K AVG ENTER Ka Electronic Vibration Analyzer EVA Keypad 0 to 9 Keys Keys numbered 0 9 are used to select the snapshot tag number when storing or playing back information NVH DIAGNOSTIC TOOLS 21 ISSAN Q Gi INFINITI A B Key Use this key to switch between the A and B sensor inputs AVG Key This key is used to toggle back and forth from average mode to non average mode Arrow Keys Press the up and down arrow keys to scroll forward and backward when in the playback mode ENTER Key Press this key to start the record function EXIT Key Press this key to return the screen to the ACTIVE STROBE RECORD PLAYBACK or FREEZE modes FREEZE Key Press this key to freeze the current readings in either ACTIVE or PLAYBACK mode Press either the FREEZE or EXIT button to deactivate the freeze function RECORD Key Press this key to change to the RECORD mode Press EXIT to return to the ACTIVE mode PLAYBACK Key Press this key to display stored snapshot information Press EXIT to return to the ACTIVEmode RPM HZ Key Press this key to toggle between RPM and Hertz Hz STROBE Key Press this key to convert to the STROBE function to balance rotating components such
69. ke groan usually occur at vehi cle speeds below about 20 MPH and mainly during warm temperatures Brake groan is caused by accumulation of brake dust on the surface of the brake pad giving the pad a cloudy appear ance As the pad contacts the rotor the dust changes the coefficient of friction between the pad and rotor producing the groaning noise Brake Creep Brake creep is a normal condition and does not indicate a brake problem or adverse braking performance Creep noise is caused by an imbalance in the force necessary to move the vehicle and the applied braking force For example if a vehicle with an automatic transmission is in D range with moderate pressure on the brake pedal the vehicle will be held stationary Reducing the brake pedal pressure slightly produces a rumbling noise as the vehicle creeps forward Brake creep can be eliminated by increasing foot pressure on the brake pedal The occurrence of brake creep is higher today because more cars are equipped with automatic transmissions and engines which develop high torque at low RPM for better acceleration Addi tionally health concerns have meant that semi metallic brake pads are being used in place of asbestos pads Semi metallic pads have a different friction coefficient and therefore increase the potential for noise BRAKE NOISE 51 G INFINITI During the diagnosis and repair of brake noise symptoms always follow the Four Step Repair Process The four st
70. laims submitted based on the necessary repairs 4 Squeak amp Rattle Resources T INFINITI SQUEAK amp RATTLE DIAGNOSTIC WORKSHEET page 2 Briefly describe the location where the noise occurs Il WHEN DOES IT OCCUR please check the boxes that apply C Anytime O After sitting out in the rain L 1st time in the morning L When it is raining or wet O Only when it is cold outside O Dry or dusty conditions O Only when it is hot outside C Other lll WHEN DRIVING WHAT TYPE OF NOISE CI Through driveways Squeak like tennis shoes on a clean floor LI Over rough roads Creak like walking on an old wooden floor LI Over speed bumps Rattle like shaking a baby rattle LI Only about mph Knock like a knock at the door L On acceleration Tick like a clock second hand LI Coming to a stop Thump heavy muffled knock noise C On turns left right or either circle Buzz like a bumble bee C with passengers or cargo C Other O After driving miles or minutes TO BE COMPLETED BY DEALERSHIP PERSONNEL Test Drive Notes Initials of person performing Vehicle test driven with customer oO Noise verified on test drive Oo Noise source located and repaired Oo Follow up test drive performed to confirm repair oO VIN Customer Name WOE n _ Date This form must be attached to Work Order Page 2 of this worksheet provides documentation for the type of noise and is the first step in iso lating
71. m a Pressurized Interior WIND NOISE AND TURBULENCE 59 gt T ISSAN INFINITI 6 To locate small air leaks that cannot be felt with your moistened hand use a small diameter hose as a stethoscope and move the hose around the window and door seals If available you can also use the EngineEAR to listen for air leaks 8 Use masking tape to mark any areas where you feel air getting past a weatherstrip or where you hear the leak Chalk Inspection Another method that can be used to isolate air leaks is a chalk test To conduct a chalk test 1 Open the door and thoroughly clean the sealing surfaces for the door weatherstrip and wipe off the door frame sealing surface This will insure good contact after the chalk has been applied 2 Use soft non permanent carpenter s chalk and completely coat the sealing surfaces of the weatherstrip 3 Hold the exterior door handle in the released position and slowly close the door Do not close the door completely or open it quickly as some the chalk will be blown off the weath erstrip by the sudden rush of air producing a fuzzy print Slowly open the door and check the chalk print on the door jamb and weatherstrip 4 Ifyou have trouble getting chalk to transfer apply a light coat of auto body wax to the weatherstrip contact surface Don t wipe the wax off once it dries The coat of wax will more easily hold the transferred chalk print 5 After the chalk has been transferred to the d
72. n Countermeasure Recommended Service Type of Noise Concern Squeal Squeak Groaning Noise Creeping Noise Use of rubber coated shim behind the disk brake 9 d 9 Removal of wear dust o o O Temporary Replace pad select one with O O O the same friction material Temporary Temporary Temporary Replace rotor or drum X X X Replace caliper X X X Replace pad select one with different friction material a 7 G Chart Legend O Effective countermeasure X Ineffective countermeasure If the suspected brake pad is replaced and there is no sign of overheating of the pad mate rial brake noise will recur because this will only produce a temporary change to the pad sur face condition Replacement of the disk rotor will not eliminate brake noise unless the rotor is worn abnor mally The noise can be improved temporarily by grinding the friction surface of the pad All Nissan brake pads are designed for a specific vehicle application In some cases if the caliper design is the same pads designed for one specific vehicle may fit on another and reduce brake noise If such a repair is performed the customer should be informed the replacement pads may change the performance characteristics and perhaps wear differently than the original pads 54 BRAKE NOISE INFINITI Recheck Brake noise is a major customer concern Following the repair of any noise always road test t
73. n When addressing a system with three working angles the rear working angle and the middle working angle act as a pair of joints canceling each other out as with a one piece system The front working angle is considered the odd joint because it does not have another joint pro viding cancellation The working angle of the odd joint should be kept below 1 2 degree 42 ISOLATING ENGINE AND DRIVELINE NOISES AND VIBRATIONS INFINITI The idea is to keep the working angle of the odd joint to a minimum so there are not any great fluctuations in speed that need canceling out The front U joint is used as the odd joint because it does not change with suspension movement jounce rebound or axle wind up This makes the front propeller shaft an extension of the transmission output shaft Center support bearing Front Propeller Shaft Rear Propeller Shaft Front working Middle working angle angle Rear working odd Joint angle On a vehicle with a two piece propeller shaft try to attain no angle difference between the engine crankshaft and the front propeller shaft and equal angles on the center and rear universal joints As a rule of thumb front and rear angles should be within 1 of each other The working angle should be no more than 4 Symptoms of Second Order Driveline Vibration The following are signs and symptoms of second order driveline vibrations They are always vehicle speed sensitive
74. n the area where the customer thought the noise was located Wind noise just like a water leak can occur in one location and seem to be coming from another so don t isolate your search to one area only Make a thorough inspection of the weatherstrips around the doors The sealing surfaces are quite complicated on some doors where the rubber seal may be sealing against the door frame or against another weatherstrip On some models the drip rail is an integral part of the upper section of the door weatherstrip Its purpose is to direct water away from the door not to pro vide a seal WIND NOISE AND TURBULENCE 57 G INFINITI Road Test 1 Prior to conducting a road test be sure all loose items are stored properly and are secure Lower the radio antenna and unscrew the cellular phone antenna if so equipped 2 During the road test have another technician accompany you It is dangerous to try to drive and isolate a noise at the same time 3 Road test on smooth straight streets Make turns so all directions are covered There should be minimum traffic to allow you to drive the car at cruising speeds Avoid the free way since there is a high noise level 4 Drive the car at the speed in which the noise was noticed by the customer Stay within legal speed limits 5 During the road test verify the symptom by answering the following questions A What type of noise is it a Whistle b Roar c Rush B Under what drivin
75. n vehicles with two piece propeller shafts However more than just the angle of the propeller shaft is critical for quiet vibration free operation Prior to making any measurements inspect the installation and condition of the engine and transmis sion mounts Broken or sagging mounts can change the angle of all components in the driveline and be the cause of a driveline vibration On a vehicle with a two piece propeller shaft check the condition of the center bearing Inspecting a Center Support Bearing A worn center bearing will change the angles of the two sections of the propeller shaft resulting in a vibration H the bearing is bad and requires replacement mark all components prior to disas sembly so they are correctly aligned during reassembly Alignment of the propeller shaft requires more than just measuring the angle of the propeller shaft installed in the vehicle Engine Crankshaft Front section of the Propeller Shaft Vehicles with Two Piece Propeller Shaft Rear Section of the Propeller Shaft Vehicles with Two Piece Propeller Shaft Differential Pinion Shaft As you make your measurements record all of your readings You can make changes by shim ming the rear transmission mount or shimming the center bearing support Remember chang ing any of the angles will affect the others For example shimming the center bearing up will change the angles of the front and rear propeller shaft sections in relation to the en
76. nces can be classified into one of two groups Those caused by rotating driveline components Those caused by travel motion Recheck The repair should be rechecked under the same conditions used to verify the concern Make sure that the original noise has been repaired and no new noises have appeared Driveshaft Noise and Vibration Nissan and Infiniti use several driveshaft designs Each design features U joints or CV joints to enable the drive shaft to move independently of the rear axle or front wheels If these joints are damaged or out of phase the drivetrain may be the cause of a variety of different noises or vibrations 32 ISOLATING ENGINE AND DRIVELINE NOISES AND VIBRATIONS Rear Drive Shaft 1 Piece re ANY 1 Propeller shaft tube 2 Snap ring Sleeve yoke D Journal lt Front Rear Drive Shaft 2 Piece The 2 piece drive shaft includes a center bearing U joints journals and bear ings are replaceable Notice that all retaining clips bolts and nuts are marked with an X to indicate they should always be replaced if they are removed from the drivetrain components ISOLATING ENGINE AND DRIVELINE NOISES AND VIBRATIONS 3 6 E O 59 8 6 1 44 Journal bearing Flange yoke Propeller shaft tube Sleeve yoke Center support bearing bracket Slip yoke INFINITI The propeller shaft is connected to the Sleeve yoke from the out put shaft and Flange Yoke of the diffe
77. ng Isolate RFV symptoms by Visually inspecting the tires and wheels If the vehicle is equipped with factory tires and wheels check the alignment of the factory paint marks If they are out of alignment reposition the tire on the wheel rebalance the assembly and conduct another road test Increase tire pressure and conduct another road test Higher tire pressure produces higher RFV and a higher amplitude shake Lower tire pressure produces a lower amplitude shake If the intensity of the vibration changes with different tire pressures excessive RFV is likely Substitute the suspected bad tire wheel with a known good assembly then road test again to determine whether the vibration has changed f the vibration does not change remove the tires and wheels and check the balance then conduct another road test ISOLATING TIRE AND ROAD NOISES 47 INFINITI If the vibration is not wheel balance related measure the radial runout of the tire and wheel Nissan and Infiniti do not provide specs for runout measured at the tire Common industry standards are approximately 1 5mm 0 060 If the runout is greater than 1 5mm 0 060 shift the phase of the tire on the wheel in increments of 90 degrees until the smallest amount of tire wheel runout is attained This is known as indexing the tire to the wheel Typical allowable radial and lateral runout for aluminum wheels is 0 80mm 0 01 2 and vehi cles with steel wheels list 1
78. nnnnnnnnnnnnnnnnn nunn nnnnnn nnmnnn nnn nna 45 Tire Related NOISES cigs a caw cata eco A aE K aE aaa NEE 46 Radial Force Variation siscisccssscasccacessccesceseczstsnecesnshacececiciesanhaccieasedendeasceesstacenanisbecheuaisueuangeedscoecabacescezeriyezys 47 TOMGA tS eA O ET 48 RFV Meas remeni 5 cccsess esshs cecaattetetncnciucscntcaeatsdeescaddenysiedcatecidce ata EAr aa aE EER E AEA AEAEE AES 49 Eeer 50 INFINITI Brake NO SE yisccssincinccinscnsiustnsccecononv vasnuoicuvsneunteusiervccvannsu seifuinsedoreuitasuorsunsoesmuene uspusateibanuvesensiaveseanied 51 Repairing Brake NOISE a tssss coated coctcodestsvac cxcrcpieacrcedaccovedcsieitiestnishietcdstiesddaiieretateseeaeenemeicaticaeneraeades 52 Corrective ee Rn E 54 Wind Noise and Turbulence sssssssssusunennneununnununnnnnnununnununennnnunnnnunnnnnnnnunnnnunnnunnnnnnnnnnnnnnnnnnnn nennen 56 PVE EET E cds csiatenceesactccda chants eet 56 SUN Ebene 57 Wind Noise Spe CHO EE 57 Road E e EE 58 Pressurization Check and INSpection cic ects cactcat ce cces tech cic stsee ada cteea ta caketi cd vcctactendasiedecelesiiecbeenae 59 Chalk SS GUO Ui cas caesar ca cress Se eacatectica cccccadscateseseadeecceraveesdecctbea DNASE EAA ete baneoteaamntanadiecbeeies 60 ee 60 Dollar UR 60 Soapy Water INSPSCUOM cisscntsnssentasncaniaincertasnicanrsnnianiarisientsincanesntintnviasetaiannndssieenanaeinadiaansdtaneanidlawnancien 62 Weatherstrip Repair Procedures sscsssssessessssensvensenssnneenees
79. nostic E 19 STIKI E E wold isunblaiieisccsscucdeusuicbiesctebecuncavensciutccacivetczanunensasetecvesitecanereiee 19 Electronic eeneg 19 EVA Components and Operation Description uu eseceesssseseeesesesseseeseeseseeeeeetensasseessessaseeensaeaeaans 20 Steelman Engine E 26 Steelman Chassis Eales iiini Tikei asiaa AEEA tr rary Sermo aOR ean AAEN ee nania tee rere rer ee te 27 ls et 29 eege 30 Isolating Engine amp Driveline Noises and VibrationS s nseunsunnennnunnunnnnnnunnnnnnnnnnnnnnnnnnnnn na 31 Engine Related NC 31 Engine ViBraUoN Senine ee ee er 31 Driveshaft Noises and Vibration ciciccsscccscscsssccccsecacsvasecenestecusedeecesvertcensesecevesisiecnstvettasieniuloieemmncanens 32 Rebro en E e 34 CV Driveshaft ISPS CUOM tte 34 Propshaft LEE E 35 PROD Sart RUNOU siirdati ccecads cette cds abeadeteh cata ehguuania siecle Snadcecbsed bakes de apanaeceynay teas santisaaceeaauceantecslie 36 Pr opshatt SALSA E 36 EE eege 39 Inspecting the Center Bearing scsscciectescccaciscs cscstsescsrectsesesesitstcsseseciesrcctedeieced detec taveateeiddelceeseerentestaens 41 1 and 2 Piece Driveshaft propshaft Working Angles ENEE 42 Ne Driveshaft VO ics ecco chs reeek cae acca eax Olan iu Aaa ace cmeseh cen EAN Neea Kaake 43 Lateral Driveshaft AliQgntment cccccsssesseseceseseeseeceeeeseseseseeatseseseneeesesassenecanenasaeaeseeesasseaseesetanneeesetats 43 Isolating Tire and Road NOISES ssssusssunnnunnnnnnnnnnnnnnnnnnnnnnunnnnnnnnnnnnnnn
80. nsneatenseeeseateeeees 4 ee 6 Virtual ACAGGUINY seis ccssnissserisssnessseciesstadbanscuswisnbsarsnassnnniuusindusedisusudedbinacksateanucadesaadsdsisnardadsbinceseidsbecausians 7 SIR VSO iiciin raae ae I EEEa LEa E AEA EEEE EAEan AEA EAKAS EE Ei 7 Vibration Fundamentals sssssessusnnnnnnnunnnnnnnnunnnnunnnnnnnnunnnnunnnnnnnnunnnnunnnnnnnnunnnnnnnnunnnnnnnn nn ennnnnnnnn nennen 8 Vibration FIEMMEN Sesa E E E eer ee 8 Cycle Amplitude and Frequency eege EEGEN 9 ee Ee tenanton nnanet anana nnearneea nenna 11 EE 12 Ee EE 12 Vibration Dampers srasni n a a 12 Origins Of We EN 14 Vibration Order ssieiisiisiiransirguayreisyssneer asriarda are eaea T aE arare e rapidan rari AREER Eai 14 Vibration Caused by Combustion stescsdscseriemsntckrercnteineeinne ities lentmaemas 15 Misfire Order of ViDFAWOM scccctesdescastactestesccectniciehsetcceiccceitissiatvec aaridesssiest insiiecoaiaeieieitlnnnetnia ee 16 Vibration FRO UE ll vive sivssecsseissseensccsecestisnuessssissessssdsnecseissensescssasecticnssesussseseseiussarstudarasstiiesisesniuass 17 Calculating Engine Order of Vibration sewiscseintencearen ne udeem abandon 17 Drivelin Ord r OF VIR AROI sssi svcsciniicadnascusiansciielsasiesdunninidiananinesndieiileonssiosicadanndtsndeaseasanieta aubisinianitiannts 17 Wheel and Tire Vibration Frequency ssccsrscrsstncacaenascdessassasesastannapansocehastacennssadseesheestasanestasheianenscanvinenes 18 Summary of typical Vibration Freed 18 2 D o INFINITI NVH Diag
81. nsvensvansensennsenesnnesnersausnevansensenneenees 63 PRA CUI E 63 Use et eege ESA 63 Body MR 63 Shimming VV SOUS e cs catctasdestesvencacsvittectticseicedcenreiccertasrnciac ines acrecsnsiatecctvieraetiaicearenaeetned 63 Window Door and Sunroof Adjustments eege eege Eed 64 e UNN TE 65 Warranty POMNGY cscvicscxssisovcesecoscaticnvssind cactvodescoundrvsnotts avtsteonvetiuanvinbensakedcesceosinedeebooeeaitaveccssbiundvesossoriiateveatied 65 Squeak and Rattle Diagnostic Worksheet NEEN 67 Test Drive Tip Ssnin ea aE Te ara E aa a Eaa EAA E E E E E 71 Squeak and Rattle Resources iscesicsccssscacsseceneceaisnesassscesnsessesnasuseensscsacessscesesasesenacseuecincnnestecossenstacessnvens 72 VE s sccnsicsnessvanseasientennnareasenasossatacosesczenaiytcavsinscacbuscasweasitaivedsdadvbunstiooneasbasiwesndsbaestiobeeeset 72 Toleo eoo e crit nerprtrer i tererrrtrre seri rrrr tepnreerrt rere epertT eerieer Nester rrr 73 Squeak and Rattle Escalation POoliCy sic cee cicsicccsvesieetvensentessisscssatnsestoscd ectehsucchessessnicandtbsisentiancaictiasacs 74 o INFINITI Squeak and Rattle Kit Parts sssssssssssssesresssserissrnsrinnninnrnnnenunnnnnnnnnunnnnnnunnnnennnnnnnnnnannnnnnannannnn nnna nnann nna 74 Squeak and Rattle Characteristic Noises cssssessssesseeseseeseseeeeeeseseeeetensaeneeseseseaeseenssensaseeenenensaeaes 75 Squeak and Rattle Verification and Repair ENEE 77 Instrument TEE 78 Center GO SONG is ceissccicscih ctasaciespsctesiasacie spi
82. ntrifugal force of rotat ing components When engine combustion occurs vibrations develop as a result of that pro cess Engine components such as the flywheel and crankshaft are designed to minimize the effects or feel of these vibrations so they are not as harsh Engine mounts and mass dampers reduce the feel of these vibration pulses even more Vibrations resulting from rotating parts are normal in many cases However when conditions such as excessive runout imbalance or misalignment are out of tolerance they result in cus tomer dissatisfaction Vibration Sources Reduced by Normal combustion Mass dampers engine mounts exhaust mounts etc Rotating parts Crankshaft counterweights flywheel harmonic balancer etc Vibration Elements Vibrations caused by excessive runout imbalance or misalignment produce the kind of harsh ness that is offensive to the customer In order for these vibrations to be noticeable three ele ments are necessary There must be a s Source The component that causes the vibration s Transmission route The path the vibration takes through the vehicle The path can include body or suspension parts and in the case of some noises the air Oscillator The component through which the customer feels the vibration such as the steering wheel the floorboard or seat Source Transmission Route Oscillator Objects vibrate from vibration force Vibrating parts excitation source final v
83. o diagnose noises originating from these and other components Bearings wheel compressor etc Brake components calipers loose pads brake shoes Constant velocity joints Coil or leaf springs popping creaking or rattling Differential noisy gears or bearings Transmission gears bearings clearance problems Body squeaks and rattles Engine noises oO nN Ss St ROON gt Pump noises How to Use the ChassisEAR Tool 1 With vehicle elevated attach the clamps to the suspect areas 2 Run the wire leads to the passenger front seat and connect the jack from each wire lead into the control box Match the color to the number i e the red Jack is plugged into input Jack 1 green is plugged into 2 and so forth 3 Using the Location identifier Note Pad make notes of the location and corresponding color for each microphone clamp 4 Using the nylon and Velcro ties that are provided secure the leads under the car so that they do not drag on the pavement Avoid placing the leads against the exhaust pipe or any other location which would cause damage Lower the vehicle and conduct a road test During the test turn on the control switch Listen to each channel to pinpoint problem areas Inclinometer CAUTION When using the ChassisEAR it is highly recommended the technician wearing the headphones sits on the passenger side while a second person drives the car It is against many state motor vehicle laws to operate a v
84. ocess study the following charts Keep in mind that normal 1 order vibrations are pro duced by the spinning mass of the crankshaft Each time combustion occurs vibration increases Combustion induced vibration occurs at a different frequency than vibration caused by rotating engine components In the following example each dot represents a firing pulse When 2 firing pulses occur during the same rotation of the crankshaft a 2 4 order vibration develops This occurs during normal engine operation Normal Engine Operation 4 Cylinder Crankshaft Revolutions 1 2 1 2 1 2 Combustion Pulses e e e e e e e e e e e e 4 stroke cycle 4 stroke cycle 4 stroke cycle In the next example the number of pulses increases from 4 to 6 with each four stroke cycle This sets up a normal 3 order vibration because 3 pulses occur with each revolution of the crank shaft Normal Engine Operation 6 Cylinder Crankshaft Revolutions 1 2 1 2 1 2 Combustion Pulses e e e e e e e e e e e e er er er er er er 4 stroke cycle 4 stroke cycle 4 stroke cycle UNDERSTANDING THE ORIGINS OF VIBRATIONS 15 G INFINITI In this example the number of pulses increased from 6 to 8 for each four stroke cycle This sets up a normal 4 h order vibration because 4 pulses occur during each rotation of the crank shaft Normal Engine Operation 8 Cylinder Crankshaft Revolutions 1
85. on increases due to suspension resonance Suspension Noise Location e Vibration is transmitted to the body via the suspension creating noise in the body panel To isolate road noise from tire pattern noise travel over a smooth section of road then a rough section of road Road noise will be more pronounced on rough road surfaces whereas tire pat tern noise will only be audible on smooth road surfaces Solid Borne Noise Airborne Noise Tire Vibration Road Surface Noise Caused by Tires Suspension Vibration Noise Entering the Vehicle Body Vibration Noise Heard in the Vehicle To further isolate tire pattern noise install tires that have a different tread pattern and road test again to determine if the noise has changed H tire pattern noise is determined to be the cause you can minimize the noise by adding sound deadener to the inner fender panels Since pattern noise is transmitted through the air insulating the noise transmission path by adding additional insulation is an effective means of reducing the noise If road surfaces are causing the noise add additional sound deadening material under the car pets in the passenger compartment floor boards Since road noise is transmitted through the body adding insulation to the body may reduce the noise If the noise is not sufficiently reduced replacing the tires with ones that feature a different tread design may reduce the noise 46 ISOLATING TIRE AND ROAD NOI
86. on was held up to the shaft If the mark circles the entire shaft clean off the shaft and repeat the procedure while applying only light pressure ISOLATING ENGINE AND DRIVELINE NOISES AND VIBRATIONS 37 CA INFINITI Place one hose clamp 180 opposite the chalk crayon mark Run the vehicle at the same speed as noted earlier with the vibration If the vibration worsens the amount of weight may be too little too much or not correctly positioned If necessary rotate the hose clamp in 1 8 to 1 4 turn increments Run the vehicle at the same speed to identify when the vibration improves If the vibration is not affected at all or only gets worse then one clamp is not sufficient Heavy Spot 1 7 4 EE RIE E Balance Both T 0 0 Location 1 0 Clamps 20 Total Total Total Weight Weight Weight Repeat the above process with two clamps Rotate the clamps opposite one another in 45 increments see above illustration Continue this process by rotating the hose clamps in different amounts until the vibration improves or is eliminated If the vibration can be reduced significantly with the vehicle on the hoist but cannot be elim inated completely road test the vehicle and evaluate accordingly A slight vibration felt on the hoist may not be noticeable while driving ISOLATING ENGINE AND DRIVELINE NOISES AND VIBRATIONS INFINITI Angle The U joints enable the drive shaft and suspension to move
87. oor jamb slowly open the door and inspect the chalk print The chalk print transfer should be consistent around the entire perimeter of the door opening If there is a gap or the print is light in some areas this indicates the weather strip is not making complete contact The illustration below shows typical area to inspect Weatherstrip Inspection Points Partial 60 WIND NOISE AND TURBULENCE T INFINITI Powder Inspection A powder inspection can also be used to isolate air leaks Begin by covering the seats carpets and instrument panel to protect them from powder residue Then 1 2 Roll up all windows and completely shut all the doors Fill a small rubber bulb syringe with talcum or baby powder From the outside of the car aim the syringe directly at the door opening and squeeze pow der around the entire perimeter of the door edge After the powder has been blown into the door edge slowly open the door and inspect for traces of powder that has passed through Powder on the inside indicates that the weath erstrip is not making contact in that area Clean off all powder residue from the door jamb and the weatherstrip If necessary vacuum the interior to remove all powder residue before returning the vehicle to the customer Paper or Dollar Bill Inspection To conduct this test begin with a piece of flexible paper such as newsprint or a well used dollar bill 1 Thoroughly examine the various weathers
88. peller shaft The timing light should flash each time a pulsed signal is generated by the EVA Pay attention to which mark on the propeller shaft illuminates when the light flashes This marks the light spot of the imbalance After completing this test balance the propeller shaft then retest to verify the repair NVH DIAGNOSTIC TOOLS 25 INFINITI STEELMAN Engine EAR The STEELMAN EngineEAR is an advanced electronic listening tool which can be used to detect wind noises water leaks bad bearings and bushings exhaust leaks and faulty plug wires It consists of a set of headphones a control unit that has an on off switch and volume control and a cable to attach the headphones to the control unit EngineEAR Features Quickly locates problems under the hood Identifies worn bearings and bushings Amplifies sound and shuts out surrounding Identifies broken or worn gear teeth noise Identifies noisy valves and lifters Listens to fuel injectors and solenoids Identifies exhaust and other leaks Comes with battery and ABS plastic case How to Use the EngineEAR Tool 1 Make sure the control switch is off 2 Put the headphones over your ears 3 Attach the headphone plug to the EngineEAR turn the control switch on then adjust the volume control to a comfortable level 4 Move the flexible wand back and forth close to the area where the noise originates so the microphone pickup can sense
89. pers Remove the dust in an approved manner CAUTION Never use compressed air to blow the dust off the brake components In addition always wear a dust mask or respirator when removing brake dust from calipers pads and rotors Brake dust is potentially harmful if inhaled Check the condition of the shim behind the brake pads If it is deteriorated or missing a new one must be installed Squealing or Squeaking Noise on Drum Brakes If brake dust is present on the friction surfaces of drum brakes a squeal or squeak can result CAUTION Never use compressed air to blow the dust off the brake components In addition always wear a dust mask or respirator when removing brake dust from calipers pads and rotors Brake dust is potentially harmful if inhaled Rear drum brake noise can also be caused by the brake shoe as it rubs against the backing plate during brake application During repairs coat the shoe contact points on the backing plate with high temperature brake grease Refer to the illustrations below for typical backplate lubrica tion points ER BRAKE NOISE 53 Z N R ISSAN R INFINITI Groaning Noise on Disk Brakes As with brake squeal or squeak the presence of brake dust on the friction surfaces can cause the disk brakes to groan The following chart summarizes the recommended types of service for eliminating brake noises noting the effectiveness of each type of repair countermeasure Corrective Actio
90. r rattle If you saturate the area with silicone you will not be able to recheck the repair Center Console The center console is another area with high incidents of squeaks and rattles Components to pay attention to include 1 Shifter assembly cover to finisher 1 2 A C control and radio cover 2 SQUEAKS AND RATTLES 79 SE Gv S INFINITI 3 Wiring harnesses behind radio and A C control unit These incidents can usually be isolated by tapping or moving the components to duplicate the noise or by pressing on the components while driving to stop the noise Most of these incidents can be repaired by the application of non woven cloth tape or silicone spray in hard to reach areas Urethane pads can be used to insulate wiring harnesses CAUTION Do not use silicone spray to isolate a squeak or rattle If you saturate the area with silicone you will not be able to recheck the repair Doors The doors and door panels are also common areas for squeaks and rattles Pay attention to the 1 Finisher and inner panel making a slapping noise 2 Door handle escutcheon 1 to door finisher 2 squeak 3 Wiring harnesses tapping 80 SQUEAKS AND RATTLES INFINITI 4 Door striker out of alignment causing a popping noise on starts and stops Tapping or moving the components or pressing on them while driving to duplicate the conditions can isolate many of these incidents You can usually insulate the areas with non wo
91. rential Replaceable U joints and needle bearings enable the shafts to move independently TSBs NTB10 052 and ITB10 025 explain repair procedures if U joints are responsible for drive shaft noise or vibration Axial play in U joints is limited to 0 02mm 0 0008 2WD Models short wheel base Diaen 36 e arith ei 44 pre O Snap ring 3 Journal bearing Journal 6 Center support bearing Clamp 9 Boot Flange yoke gt Front ER gt INFINITI KOO 3 C 74 7 5 55 OO 45 4 6 33 The circled rubber coupling sometimes called a Rebro joint connects the propeller shaft to the final drive flange This driveshaft is equipped on the G37 and Nissan uses a Rebro joint on the GTR These drive shaft assemblies have a specification of 0 0 for U joint axial play and are not serviceable TSB ITB11 019 describes servicing the Rebro joint to eliminate a vibration in the vehicle floor or a booming noise hear at highway speed CV Joint Rear Drive Shaft This example shows the rear drive shaft on AWD Juke and Rogue models The CV joint shown minimizes vibration for the 2 piece drive shaft In the top image the ESM warns to be careful not to tip the shafts so that the CV joint boot is not damaged In the bottom image the ESM indicates that the two shafts should be held together if the drive shaft assem bly is removed There is no clip to hold the two shafts together
92. riveline Vibrations 30 80Hz 15t order Engine Vibrations 30 60Hz Combustion Induced Vibrations 60Hz amp up 209 and 4th order In summary 17 order wheel and tire vibrations generate much lower frequencies than 1 order engine vibrations This is because they are rotating at a much lower speed than the crankshaft 18 FREQUENCY CONVERSION FORMULAS G INFINITI NVH DIAGNOSTIC TOOLS Regardless of the source of the vibration when components operate at a constant speed the frequency of the vibration can be accurately measured These measurements can be made with specialized test equipment such as a Sirometer or an Electronic Vibration Analyzer EVA If the frequency of a vibration is known the source of the vibration can be determined by using some simple analytical skills There are numerous tools available for detecting vibrations They range in price from around 20 for a Sirometer to as much as 1400 for an EVA Any of these tools may be adequate to help diagnose vibrations but the availability of the tool in your workplace will determine which tool you will use During this training you will see or use a variety of tools It will be up to you and your service manager to determine which tools best meet your needs Keep in mind the cost and complexity of the tool and the nature of the diagnosis you are performing with the tool The fol lowing tools are available for diagnosing vibration concerns Si
93. rks aligned ISOLATING TIRE AND ROAD NOISES 49 INFINITI MatchMaker MatchMaker EXAMPLE DATA RFV can cause a tire pull in addition to vibration MatchMaker is a software program that enables the GPS9700 to calculate the best possible tire and wheel placement to minimize either condi tion In the example above each wheel tire assembly has been tested for RFV The GSP9700 indi cates the greatest RFV for each tire and the point of least radial runout for each wheel The screen recommends that tires 1 and 3 be switched to wheels 3 and 1 By force matching all 4 sets of wheels and tires RFV is dramatically reduced This process would rarely be required to solve a vibration problem but gives technicians options to solve a customer complaint that might avoid replacing tires or wheels The GSP9700 will indicate when Force Matching would not reduce RFV and in those cases the tire would need to be replaced Recheck Following repairs road test the vehicle a final time to be sure the problem has been resolved The road test should reaffirm that the vibration that was felt during the verification step is no lon ger present and that there are no other vibrations or noises in the vehicle 50 ISOLATING TIRE AND ROAD NOISES INFINITI BRAKE NOISE There are three different types of brake noise each caused by different vehicle conditions and each requiring a different repair approach The three types of noise are 1 sq
94. rmal vibration For this example we will use 1 200 RPM To calculate a 1st order engine vibration frequency use the following formula Engine RPM 60 Engine Hz Example 1 200 RPM 60 20 Hz 15t Order Frequency To compute a 2nd order engine vibration frequency use the following formula Engine RPM 60 x 2 Hz or First order vibration x 2 Hz Example 20 x 2 40 Hz 2nd Order Frequency To compute a 3rd order engine vibration frequency use the following formula Engine RPM 60 x 3 Hz or First order vibration x 3 Hz Example 20 x 3 60 Hz 3rd Order Frequency To compute a 4th order engine vibration frequency use the following formula Engine RPM 60 x 4 Hz or First order vibration x 4 Hz Example 20 x 4 80 Hz GO Order Frequency Service Tip If the frequency of an incident vibration matches the calculated normal engine vibration frequency suspect an engine induced vibration This could be caused by faulty engine mounts or problems relating to the exhaust system Driveline Vibration Frequency Calculations A 1 order driveline vibration frequency can be calculated by dividing the 15t order engine fre quency by the gear ratio of the gear the vibration occurs in For this example we will use an engine frequency of 60 Hz anda gnd gear ratio of 1 545 gear ratios can be found in the service manual 15t To determine order driveline vibration frequency use this formula 1
95. rometer The Sirometer is an inexpensive tool used to measure both frequency Hz and RPM A wire coiled inside the case scrolls in and out exposing more or less length The Sirometer operates on the principle of resonant frequency As the length of the scrolled wire changes so does its natural frequency When the natural frequencies of the vibrating component and the scrolled wire match each other they are said to have resonance When this resonant frequency is matched the scrolled wire vibrates at its highest amplitude Electronic Vibration Analyzer EVA Introduction The basic function of the EVA is to provide frequency and amplitude readings of vibrations The EVA includes the following components EVA unit with a five foot power cord and protective cover Software cartridge Contains operating program NVH DIAGNOSTIC TOOLS 19 Ze T ISSAN z INFINITI Vibration sensor with a 20 foot cord Magnet Not shown Velcro holding strap Putty To stick the sensor to something non magnetic Not shown Instructions Not shown Carrying case Not shown Item Description 1 Velcro Holding Strap Electronic Vibration Analyzer 2 3 Vibration Sensor 4 Software Cartridge Electronic Vibration Analyzer EVA Features Display Screen The display screen on the EVA unit is a liquid crystal display that provides output messages to the operator It also provides information abou
96. s the early bird service leave them a Diagnostic Work sheet to complete when they drop off the vehicle As mentioned earlier it s important that the person who test drove the vehicle to verify the concern is the same person to drive the vehicle to re check the repair This insures that the correct noise has been repaired This can be the Service Advisor Shop Foreman or Techni cian Theory of Squeak and Rattle Repair Squeak and rattle diagnosis and repair may sometimes seem more like a nuisance than a critical repair procedure When diagnosing squeaks and rattles always keep two items in mind 1 The problem is very real to the customer It is more than a nuisance it s a reflection of over all vehicle quality 2 Like all other incidents squeak and rattle diagnosis and repair can benefit from a planned diagnostic process like the one that follows Make sure you can verify the noise After identifying the type of noise isolate the noise in terms of its characteristics Apply the necessary techniques and materials to repair the noise Recheck your repair and make sure you have caused no new noises The following information contains generic procedures for diagnosing and repairing squeak and rattle incidents SQUEAKS AND RATTLES 71 Squeak and Rattle Resources HOME COURSE CATALOG VIDEO LIBRARY TECHNICIAN SKILLS PRODUCT KNOWLEDGE INSIDE NISSAN Push Locking Tab NEW SLIDE DOUBLE LOCKING ELECTRICAL CO
97. scceanssicastes aassascneseesstestnricensnseesensee eiaeisptaaeie names 79 lee 80 TUE sp tegen a E E 81 Sunroof and SACMIME D E 82 Seats and RE le Ee 83 ue le RE 84 General Component Removal ProCeCures csssssssscscsstsssesesesssssseeesesnesssseeeeseatsteneeeeassteteeeeataeeees 85 SS E 86 vi ov INFINITI Section 2 Modules Module 1 Noise Vibration and Harshness Terminology Module 2 Using ASIST to Locate NVH Troubleshooting Information Module 3 Verify and Isolate NVH Concern 1 Module 4 Verify and Isolate NVH Concern 2 Module 5 Verify and Isolate NVH Concern 3 Module 6 Verify and Isolate NVH Concern 4 Module 7 Driveshaft Inspections Module 8 Isolating Chassis and Driveline Noises Module 9 Testing for Air Leaks or Wind Noise Module 10 Squeak and Rattle Diagnosis and Repair Module 11 Radial Force Variation vii o INFINITI NOISE VIBRATION AND HARSHNESS OBJECTIVES Given a classroom discussion and Power Point presentation you will identify the fundamen tals of Noise Vibration and Harshness including the Definition nature and causes of Vibration Definition of Cycle Amplitude and Frequency Definition of Resonance Explanation of 1st 2nd or 3rd Order Vibrations Explanation of how to calculate vibration Frequency Identification of tools used to measure vibration Given an ASIST workstation you will locate resource information available in TSBs and the ESM which identify c
98. ssembly that is dynamically balanced is also statically balanced Tone The quality or character of a sound Vibration Periodic motion about an equilibrium position such as the swinging of a pendulum GLOSSARY OF TERMS 87 88 INFINITI GLOSSARY OF TERMS
99. t to be taken 2 Select a number from 0 9 using the keypad After selecting a number the screen displays the letter W followed by the number chosen 3 Press the ENTER key to begin the recording process The EVA displays R and the selected tag number followed by the letter F and a series of numbers from 0 9 This indi cates which frame of the snapshot is being displayed and recorded At the completion of the 10 frame recording sequence the EVA automatically reverts to ACTIVE mode Playback To review the recorded data press the PLAYBACK button on the keypad The screen dis plays P to request the tag number of the snapshot to be played back Enter the number s EVA displays P and the selected tag number followed by the letter F and a series of num bers from 0 9 indicating which frame is displayed When finished viewing the snapshot press the EXIT button to return the EVA to the ACTIVE mode EVA Strobe Balancing The EVA has a strobe balancing function for diagnosing imbalance of a propeller shaft To per form this function use an inductive timing light By clamping the inductive probe of the timing light around the trigger loop on the top of the EVA a pulsing strobe signal will cause the timing light to flash in time with the imbalance 24 NVH DIAGNOSTIC TOOLS ZN G ISSA INFINITI Follow these steps to perform a strobe balance 1 2 Se a A D 10 11 12
100. t vibration frequency and amplitude for the three strongest vibrations Instruction messages for unit operation can also be displayed Keypad The keypad allows the user to program the EVA for several different operating modes Several of the keys have dual functions depending on the operating mode of the unit 20 NVH DIAGNOSTIC TOOLS o INFINITI Cartridge Port The software cartridge plugs into a port at the bottom of the unit USE ONLY THE EVA CAR TRIDGE CURRENTLY INSTALLED IN THIS UNIT Input Jacks At the top of the EVA unit is a pair of sensor input jacks labeled A and B Input A is the most commonly used port Sensor The sensor is an accelerometer which detects vehicle vibrations and transmits data to the EVA It is attached to the input cable and is functional in either of the EVA input jacks Power Cord A 12 volt feed from the vehicle s cigarette lighter supplies power to the EVA Once the power cord is attached the unit display is on no switches are necessary Strobe The strobe function requires the use of a normal ignition timing light with an inductive probe It is used to detect imbalance in rotating components A trigger wire for the inductive pickup trans mits a signal which causes the strobe light to flash at the same frequency as the vibration fre quency The trigger wire is looped across the top of the EVA Active Mode The EVA operates in Active Mode until another function is selected Act
101. tion A numerical display of the strength of each vibration Shows whether frequency displayed is in RPM or Hz Active sensor input QM 71 ue Bi e fe gt Current active mode The EVA normally displays data in the averaging mode as indicated by the letters AVG on the top line of the display When in this mode the EVA averages multiple vibration samples to make it easier to read NVH DIAGNOSTIC TOOLS 23 ISSAN S INFINITI a T To access the non averaging mode press the AVG button 8 AVG key on the keypad Pressing the AVG button again returns the unit to the averaging mode which is the best mode for most testing situations Freeze To freeze the data on the EVA display press the FREEZE button on the keypad The letters FRZ appear at the top of the screen and the display is frozen until this mode is changed Press either the FREEZE or EXIT button to deactivate the freeze function Record The record function allows the operator to record and store vibration information for playback at another time The EVA retains stored data for about 70 hours with no power The EVA records data in 10 frame snapshots of vibration information A total of 10 snapshots 100 total frames of data can be stored Recording a Snapshot The process for recording a snapshot is simple 1 To begin press the RECORD button The screen displays R to request a tag number of the snapsho
102. tle 3 These noises can be isolated by moving or pressing on the suspected components while dupli cating the conditions under which the noise occurs Under Floor The most common causes of under floor noises are the exhaust system and suspension Look for 1 Exhaust or muffler brackets broken or out of alignment 2 Other bent exhaust system components 3 Loose or damaged heat shield SQUEAKS AND RATTLES 83 G INFINITI 4 Suspension problems Be careful under floor noises can be transmitted to different components making isolation diffi cult A STEELMAN ChassisEAR is an excellent tool for isolating suspension and other under floor noises Underhood Some interior noises are actually caused by components under the hood or on the engine wall that are transmitted into the passenger compartment These include 1 Any components mounted to the engine wall Components that pass through the engine wall Engine wall mounts and connectors Loose radiator mounting pins oP oS il Hood bumpers out of adjustment 84 SQUEAKS AND RATTLES INFINITI 6 These items can be tricky to isolate since they cannot be reached from the interior of the vehicle The best isolation strategy is to secure move or insulate one component at a time and test drive the vehicle Also engine RPM or load can be changed to isolate the noise Repairs can usually be made by moving securing or insulating the
103. trips around the doors and determine the pur pose of each Does the weatherstrip redirect water from the drip rail area or does it seal the interior You may get a false indication if you test the drip rail area and believe you have found a sealing problem Dollar Bill Test WIND NOISE AND TURBULENCE 61 G INFINITI 2 Position the paper over the door frame and then close the door Don t slam the door as the seal will be crushed and this test won t work Slowly pull the piece of paper out and check how easily it can be removed There should be a moderate amount of pressure required to remove the paper Go around the door frame in the suspected area or around the entire perimeter Any area where the paper pulls out easily indicates insufficient contact to form a good seal and a possible leak point 3 This test can also be used to check the sealing ability of window glass to door frame or channel s Repeat the same test by placing the paper between the glass and the door frame or channel Put the paper in place and then roll up the window You should feel the same moderate pressure as in the previous test If the paper can be easily removed either the window glass needs adjusting or the window run channel needs to be replaced Soapy Water or Glass Cleaner A final method for isolating air leaks involves the use of a solution of soapy water or spray glass cleaner and compressed air Begin this test by 1 Rolling up all windows
104. ublication continuous updating of service procedures and specifications is possible Quick research capabilities with print on demand options make rapid retrieval of pertinent information easy All current Classifications Contents Quick Reference Index Trouble Diagnosis Wiring Diagrams Assembly and Disas sembly procedures are contained in this electronic form ESM is incorporated within the ASIST workstation to enable you to find relevant service information quickly Virtual Academy The Virtual Academy contains technician training records and is used for course enrollments VA also has access to SIR Videos and eLearning programs that may be prerequisites for training enrollments Check the VA home page regularly for Tech Line Tips Tech Talk articles and other technical and general information about Nissan and Infiniti products 30 NVH DIAGNOSTIC TOOLS G INFINITI ISOLATING ENGINE AND DRIVELINE NOISES AND VIBRATIONS Part 1 Engine Related Noises If you have confirmed an engine speed related noise use the following steps to further isolate the cause Use a stethoscope or other listening device to isolate engine noises Valve train noise ticking Drive belt or timing chain tensioner noise rattling or flapping Timing chain or gear noise rattle whine Combustion noise or knocking f you suspect an accessory noise isolate it by removing the appropriate drive belt Listen for changes in noises such as
105. uealing or squeak ing 2 groaning and 3 creeping Brake Squeal or Squeak Squealing or squeaking occurs on both disk and drum type brakes usually under light brake pedal application and often when the brake components are still cold in the morning or when humidity is high The noise can be either constant or intermittent and usually occurs at vehicle speeds below 30 MPH The noise is due to changes in the frictional force between the rotor and pad or between the brake shoe and drum However brake squeal or squeak is more often asso ciated with disk brakes than with drum brakes On a disk brake system when the brakes are applied hydraulic pressure forces the pads into the rotor As the edge of the pad is drawn into contact with the rotor surface the pad cocks slightly in the caliper While this movement ts slight the result is that the pad Is no longer parallel to the rotor The frictional force of the pad skidding along the rotor surface causes the pad to vibrate generating the squeal or squeak Nissan and Infiniti bulletins have recommended the use of original equipment NAO non asbes tos organic compound brake pads In some cases semi metallic pads may be available at lower cost Semi metallic brake pads may squeal more during normal brake use than NAO pads Brake Groan Brake groan resembles road noise and in extreme cases it may feel as though there is metal to metal contact as if the brake pads are worn out Symptoms of bra
106. ven tape or insulator foam blocks from the Squeak and Rattle Kit to repair the noise Trunk Trunk noises are often caused by loose jacks or items put into the trunk by the owner In addition look for 1 Deck lid bumpers out of adjustment 2 Latch striker out of adjustment 3 The deck lid torsion bars knocking together SQUEAKS AND RATTLES 81 INFINITI 4 A loose license plate or bracket Most of these incidents can be repaired by securing or insulating the item s or component s causing the noise Sunroof Headliner Noises in the sunroof headliner area can often be traced to one of the following 1 Sunroof lid track linkage or seals making a rattle or light knocking noise 2 Sunvisor shaft shaking in the holder 3 Front or rear windshield touching headliner and squeaking Again pressing on the components to stop the noise while duplicating the conditions can iso late most of these incidents Repairs usually consist of insulating with non woven cloth tape 82 SQUEAKS AND RATTLES INFINITI Seats When isolating seat noises It s important to note the position the seat is in and the load placed on the seat when the noise is present These conditions should be duplicated when verifying and isolating the cause of the noise Causes of seat noises include 1 Headrest rods and holders that rattle 1 2 A squeak between the seat pad cushion and frame 2 3 The rear seat back lock and bracket rat
107. with a service advisor or technician to ensure we confirm the noise you are hearing SQUEAK amp RATTLE DIAGNOSTIC WORKSHEET I WHERE DOES THE NOISE COME FROM circle the area of the vehicle The illustrations are for reference only and may not reflect the actual configuration of your vehicle TIT THT L Continue to page 2 of the worksheet and briefly describe the location of the noise or rattle In addition please indicate the conditions which are present when the noise occurs SS E SQUEAKS AND RATTLES 67 68 INFINITI SQUEAK amp RATTLE DIAGNOSTIC WORKSHEET page 2 Briefly describe the location where the noise occurs Il WHEN DOES IT OCCUR please check the boxes that apply T anytime L after sitting out in the rain L 1st time in the morning L when it is raining or wet LI only when it is cold outside O dry or dusty conditions E only when it is hot outside C other Ill WHEN DRIVING IV WHAT TYPE OF NOISE L through driveways C squeak like tennis shoes on a clean floor O over rough roads C creak like walking on an old wooden floor L over speed bumps C rattle like shaking a baby rattle LI only about mph C knock like a knock at the door L on acceleration L tick like
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