Ultrasonic Thickness Gauge
The usage of an ultrasonic thickness gauge for non-destructive testing to check material properties such as thickness measurement, is now regularly utilized in all areas of industrial measurements. The ability to gauge thickness measurement without requiring access to both sides of the test piece, offers this technology a multitude of possible applications. Paint thickness gauge, ultrasonic coating thickness gauge, digital thickness gauges and many more options are available to test plastics, glass, ceramics, metal and other materials.
A rugged ultrasonic thickness gauge determines sample thickness by measuring the amount of time it takes sound to traverse from the transducer through the material to the back end of a part, and then measures the time which the reflection takes to get back to the transducer. The ultrasonic thickness gauge then calculates the data based on the speed of the sound through the tested sample.
Inscale offers various models with thickness ranges and sound velocity to cover most applications and most materials such as steel, cast iron, aluminium, red copper, brass, zinc, quartz glass, polyethylene, PVC, grey cast iron, homogeneous plastics, nodular cast iron and other materials.
A rugged ultrasonic thickness gauge determines sample thickness by measuring the amount of time it takes sound to traverse from the transducer through the material to the back end of a part, and then measures the time which the reflection takes to get back to the transducer. The ultrasonic thickness gauge then calculates the data based on the speed of the sound through the tested sample.
Inscale offers various models with thickness ranges and sound velocity to cover most applications and most materials such as steel, cast iron, aluminium, red copper, brass, zinc, quartz glass, polyethylene, PVC, grey cast iron, homogeneous plastics, nodular cast iron and other materials.
TU Sauter Ultrasonic Thickness Gauge
Sauter TU Premium Ultrasonic Thickness Gauge
Non-destructive measurement
Ultrasonic testing uses high frequency, highly directional sound waves to measure material thickness, find hidden internal flaws, or analyze material properties in metals, plastics, composites, ceramics, rubber, and glass. Using frequencies beyond the limit of human hearing, ultrasonic instruments generate shorts bursts of sound energy that are coupled into the test piece, and the instrument monitors and analyzes reflected or transmitted wave patterns to generate test results.
TN-US Sauter Ultrasonic Thickness Gauge
Sauter TN-US Ultrasonic Thickness Gauge
Non-destructive measurement
Ultrasonic testing uses high frequency, highly directional sound waves to measure material thickness, find hidden internal flaws, or analyze material properties in metals, plastics, composites, ceramics, rubber, and glass. Using frequencies beyond the limit of human hearing, ultrasonic instruments generate shorts bursts of sound energy that are coupled into the test piece, and the instrument monitors and analyzes reflected or transmitted wave patterns to generate test results.
TD-US Sauter Ultrasonic Thickness Gauge
Sauter TD Compact Ultrasonic Thickness Gauge
Non-destructive measurement
Ultrasonic testing uses high frequency, highly directional sound waves to measure material thickness, find hidden internal flaws, or analyze material properties in metals, plastics, composites, ceramics, rubber, and glass. Using frequencies beyond the limit of human hearing, ultrasonic instruments generate shorts bursts of sound energy that are coupled into the test piece, and the instrument monitors and analyzes reflected or transmitted wave patterns to generate test results.
TB-US Sauter Ultrasonic Thickness Gauge
Sauter TB-US Ultrasonic Thickness Gauge
Non-destructive measurement
Ultrasonic testing uses high frequency, highly directional sound waves to measure material thickness, find hidden internal flaws, or analyze material properties in metals, plastics, composites, ceramics, rubber, and glass. Using frequencies beyond the limit of human hearing, ultrasonic instruments generate shorts bursts of sound energy that are coupled into the test piece, and the instrument monitors and analyzes reflected or transmitted wave patterns to generate test results.
