Home

user`s manual - Portable Clamp On Transit Time and Doppler Flow

1. 10 EASZ TG11 Specifications 11 INTRODUCTION The EASZ TG11 is a hand held microcontroller based ultrasonic thickness gage It operates on two AA batteries and is very easy to use Please read this manual and follow the instructions carefully to get the best results from your instrument How the TG11 Works The EASZ TG11 Thickness Gage is a TRANSIT TIME MEASURING DEVICE which works on the pulse echo principle A burst of ultrasonic energy is generated by a piezo electric crystal contained on one side of the transducer This burst of sound travels from the Transmit transducer past the Cross Talk Barrier through a layer of ultrasonic couplant and is transmitted into the material being measured The pulse then travels through the material being measured until it reaches a material of asubstantially different acoustic characteristic e g air or liquid which then acts as a transmission barrier reflecting a portion of the energy back to the Receive transducer located on the opposite side of the Cross Talk Barrier The time required by this burst to make a round trip through the material is accurately measured by the highly stable timing electronics found within the TG11 which then determines the thickness of the material by simply multiplying the Sonic Velocity of that material by the measured Transit Time then dividing the results by 2 Cross Talk Barrier Receive Ele
2. 1 2 PARTS and CONTROLS rreereserenesesesesene enne nene nene ne nen 3 UNITS OF SONIC VELOCITY nene nene 4 SWITCHING BETWEEN METRIC AND IMPERIAL 4 CALIBRATION ea 5 Calibration for Mild 5 Calibration with Known Sonic Velocities 5 Calibration with Unknown Sonic Velocities 6 THICKNESS MEASUREMENT 6 Ensure Surfaces are 7 Apply Acoustic Couplant senneennnenaaennamaennnnnnannene 7 invatee aaa lalla 7 Rough or Grooved Surfaces nnnnnanannnnnnnanananaaananannnaa 7 Measuring on Cylinders tenvnnanananeeannnnnanaanaanaaananne anna 8 Measuring on Non Parallel Surfaces 8 The Effects on Materials 8 Temperature 8 Typical Sonic Velocity Table 9 Battery Care and 10 PIO CAUTIONS
3. Sonic Velocity of the material being measured is unknown but the thickness of the material is known Procedure e Perform Calibration for Mild Steel as detailed above e Apply Acoustic Coupling Compound to the material being measured and couple probe firmly to it e Whenastable reading is displayed on LCD Remove the Probe e Press CAL key until the colon symbol disappears e Use the UP or DOWN scroll keys to adjust the displayed reading to the actual thickness of the material being measured e Now Couple the Probe to the material being measured e TheLCD should display Actual Thickness of the material being measured Note If the probe has been changed recalibration will be required Calibration settings are retained within the TG11 If the instrument is not used for long period of time it is advised to re calibrate the gage THICKNESS MEASUREMENT TECHNIQUES EG elo 6 ieee leasuring Worldwide Ensure Surfaces are Clean Prior to attempting to measure the thickness of any material always remove any dirt loose scale corrosion particles flaking paint or other foreign substance from the material surface Apply Acoustic Couplant For smooth surfaces a suitable acoustic couplant is machine oil or even water For rough surfaces or high temperature applications a high viscosity couplant such as EESiFlo s Acoustic Coupling Compound is recommended Cross Talk Barrier If you look inside the end of the
4. Measuring Worldwide EASZ TG11 ULTRASONIC THICKNESS GAGE USER S MANUAL Version V1 0 NA IMPORTANT WARNING Please read this manual entirely before attempting to operate the EASZ TG11 Improper use can lead to incorrect results and damage to the gage All statements technical information and recommendations contained in this manual are based on tests we believe to be reliable but the accuracy or completeness thereof is not guaranteed Before using the product you should determine its suitability for your intended use The end user bears all risk in connection with the use of this product You are reminded that all warranties as to merchantability and fitness for purpose are excluded from the contract under which the product has been supplied to you The seller s only obligation in this respect is to replace such quantity of the product proved to be defective NEITHER THE SELLER NOR THE MANUFACTURER SHALL BE LIABLE EITHER IN CONTRACT OR TORT FOR DIRECT OR INDIRECT LOSS OR DAMAGE WHETHER FOR LOSS OR PROFIT OR OTHERWISE COSTS EXPENSES OR OTHER CLAIMS FOR CONSEQUENTIAL OR INDIRECT COMPENSATION WHATSOEVER AND WHETHER CAUSED BY THE NEGLIGENCE OF EESIFLO ITS EMPLOYEES OR AGENTS OR OTHERWISE Table of Contents 1 1 How the TG11 nene nene ne nene nene nen 1 AREAS of
5. ild 2330 5920 Steel 4330 2303 5850 Steel 303 2228 5660 Titanium 2390 6070 Zinc 1642 4170 Zirconium 1831 4650 9 BATTERY CARE and USE Low Battery indication is provided by the LCD blinking for up hour Charge or replace batteries The TG11 operates on any AA type dry alkaline or Ni Cd batteries When using Ni Cd batteries the batteries should be charged prior to being used Precautions e Avoid shock to instrument or probe e Wipe the couplant off the probe and calibration block after use e Plug and unplug cables with care Check polarity e Replace any probe which is malfunctioning or showing excessive or uneven wear e Remove the batteries from TG11 if you are not going to use it for a long time 10 EASZ TG11 USERS MANUAL EASZ TG11 SPECIFICATIONS Measurable Materials Measuring Range Probe Key Pad Velocity Display Resolution Accuracy V path Correction Calibration Battery Operating Time Low Battery Auto Power Off Size Weight Housing Steel Cast Steel Cast Iron Aluminum Other Metals Hard plastics Glass Ceramics 0 04 to 11 8 1 to 300mm Dual Crystal Transmit Receive Type Sealed Tactile Response 39 300 to 393 700 inches sec 1000 to 9999 m sec 4 digit LCD 0 004 0 1mm 0 004 below 2 5 0 3 above 2 5 or 0 1mm below 60mm 0 3 above 60mm Built In for improved accuracy One Step Ca
6. libration Two AA Dry Cells or NiCad Up to 20 hours with Alkaline cells Blinking LCD for 7 hour 3 minute delay 5 H X 2 5 W X 1 2 T 125mm X 65mm X 30mm 7 ounces with batteries 200 grams with batteries ABS molded Plastic 11 NOTES EG MACA 12 USERS MANUAL Measuring Worldwide Please direct all questions to NORTH AMERICA EESiFlo Inc 219 East Main Street Mechanicsburg PA 17055 Toll Free Phone 866 EESIFLO 866 337 4356 or 717 697 8546 Fax 717 697 2122 Email Sales EESiFlo US
7. ment Transmit Element Pulse AREAS of APPLICATION Any metal plastic glass ceramic or any material which satisfactorily conducts ultrasonic signals having parallel or concentric surfaces can be measured for the thickness A major application for the TG11 is for assessing wall thinning due to corrosion or erosion Typical applications include Heat Exchangers Ships Hulls Decking Tubing and Pipes Airframes Wings Pressure Vessels Plates Slabs Castings Billets Bars Forgings Plastic Sheets Pipes Boilers Rolls Glass Plates Machined Parts Axles Wheels Rails Extrusions Storage Tanks Bridges Steam Lines Flanges filo 2 EET jeasuring Worldwide PARTS and CONTROLS RI ULTRASONIC THICKNESS GAUGE E LCD 4 digits indicating read sonic velocity OCoupling status indicators and PROBE COUPLING INDICATOR Changes to a colon symbol when the probe is NOT acoustically coupled to the material being measured KEYBOARD Tactile keyboard containing the 5 operation keys POWER Switches the EASZ TG11 ON and OFF PROBE For probe recognition and zero adjustment CAL Key Used for calibration of known and unknown materials Scroll UP and Scroll DOWN keys Used during calibration process to increase or decrease values CALIBRATION BLOCK Used for probe recognition and 2010 adjustment UNITS OF SONIC VELOCITY This is an important concept which must be understood before operati
8. method setting the probe zero point and adjusting the sonic velocity to that of mild steel 5920 m sec or 233 000 inches sec Procedure e Apply couplant to the calibration block and press the probe firmly against it When a stable reading is displayed press the PROBE key e After one or two seconds the LCD will display 00 20 inches or 005 0 mm indicating the calibration process is complete The TG11 is now ready for use on mild steel Calibration with Known Sonic Velocities This method should be employed if you plan on measuring the thickness of anything other than Mild Steel Procedure e Perform Calibration for Mild Steel as defined above e Press CAL twice and the LCD will display 5920 m sec or 2330 inch sec which is the sonic velocity of the mild steel calibration block e Remove the probe from the calibration block and use the UP or DOWN scroll keys to adjust the TG11 to the known sonic velocity of the material you are going to measure For example if measurements are being made on copper adjust the Sonic Velocity to either 1835 inches or 4660 meters Don t forget that the displayed values of inches per second are actually inches per second divided by 100 A table of the sonic velocities of the most common materials is located in the back of this manual The TG11 is now ready for use on new material 5 Calibration with Unknown Sonic Velocities This process should only be used if the
9. ncentric in order to obtain a satisfactory ultrasound echo for a thickness reading Non parallel or tapered surface will yield either less accurate or possibly no reading at all The Effects on Materials amp Temperature Both dimensions and sound velocity change with temperature which in turn affects calibration Normally the effect can be ignored for the modest changes in ambient temperature but it is always a good practice to re calibrate when a noticeable change in ambient temperature occurs The situation becomes even more complex when the material temperature is considerable different than ambient One solution is to calibrate on a reference sample at same temperature as the material Another solution is to calibrate on a reference sample at ambient temperature and then add an experimentally derived correction factor for the temperature of the material filo 8 jeasuring Worldwide Typical Sonic Velocity Table Approximate Sonic Velocity values for a variety of common Industrial materials Sonic Materials TE a Velocity m sec Acrylic Resin 1051 2670 Aluminium 2488 6320 Brass Naval 1744 4430 Bronze 1390 3530 Cast Iron 1811 4600 Copper 1835 4660 Glass Window 2673 6790 Inconel 2252 5720 Iron 2323 5900 Magnesium 2484 6310 Monel 2370 6020 Nickel 2217 5630 PE 921 2340 PVC 945 2400 Quartz Glass 2193 5570 Steel Casting 2303 5850 Steel M
10. ng in the Imperial Mode The TG11 has a 4 digit LCD capable of displaying values between 0000 and 9999 In the Metric Mode Sonic Velocities can be displayed in meters per second between 1000 and 9999 m sec In the Imperial Mode Sonic Velocities are displayed in Inches per Second divided by 100 For example the Sonic Velocity of Mild Steel is 5920 meters per second or 5920 0 0254 233 070 inches per second To accommodate this 6 digit figure divide the value by 100 and the resulting value of 2330 should be used for the Sonic Velocity in the Imperial Mode A table at the back of this manual indicates Sonic Velocities of some typical materials in both Metric and Imperial values SWITCHING BETWEEN METRIC AND IMPERIAL gt Switch the TG 11 OFF Press and hold down the UP scroll key Switch the TG11 ON by pressing the POWER key The decimal point will flash from LEFT to RIGHT on the LCD screen Release the UP scroll key and the decimal point will stop moving Press the UP scroll key again to move the decimal point to either the LEFT or RIGHT position as follows Left Imperial inch Right Metric Press the DOWN scroll key to lock the mode into memory EIEE 4 USERS MANUAL CALIBRATION The calibration process sets up the zero point of the probe and the Sonic Velocity of material being measured as described below Calibration for Mild Steel This is the simplest calibration
11. transducer you will notice a thin metal barrier called the Cross Talk Barrier running through the center of the transducer stopping the transmit and receive elements from talking directly to one another Cross Talk Barrier Transmit Receive Element Rough or Grooved Surfaces For very rough or grooved surfaces a highly viscous acoustic couplant such as that provided with the TG11 is recommended With a grooved surface couple the probe to the surface being measured so the probe Cross Talk Barrier is at right angles to the direction of the grooves Measuring on Cylinders On cylindrical surfaces probe normality and probe cross talk orientation is important To determine normality rock the coupled probe back and forth along the curved surface direction on the material surface and use the minimum thickness reading as this represents probe normality PROBE BOTTOM VIEW 0 0 PLACEMENT OF CROSS TALK BARRIER PIPE IO Selection of probe cross talk barrier orientation depends on the material surface diameter On large surface diameter orient the probe so that its barrier is perpendicular to the cylindrical axis of the material On smaller diameter initially orient the probe barrier both perpendicular to and parallel with material cylindrical axis and then use the direction that gives smaller thickness Measuring on Non Parallel Surfaces The surface on either side of a section must be relatively parallel or co

user`s manual - Portable Clamp On Transit Time and Doppler Flow

Contents

Download Pdf Manuals

Related Search

Related Contents