TIME2170 Ultrasonic Thickness Gauge Introduction
TIME2170 Ultrasonic Thickness Gauge is an easy-to-use and accurate measurement instrument, widely used in the measurement of thin parts of metal and non-metallic materials or high-precision measurement.
The principle of ultrasonic thickness measurement is that the ultrasonic pulse emitted by the probe reaches the measured object and propagates in the object, and is reflected back to the probe when it reaches the material interface. The thickness of the measured material is determined by accurately measuring the propagation time of the ultrasonic wave in the material. Features
1. Using "clutter flying technology", on the one hand, it can achieve the measurement of ultra-thin parts, the minimum thickness (steel) can reach 0.15mm; on the other hand, it can achieve high-precision thickness measurement, and the highest resolution can reach 0.001mm
2. Two measurement modes I-E mode and E-E mode are optional;
3. With the function of sound velocity calibration (reverse measurement of sound velocity) or single-point calibration;
4. Alarm setting and difference mode setting can be performed;
5. Conversion between Chinese, English and metric system;
6. 500 data reading values are stored, viewed and deleted;
7. Data transmission: print or transfer to PC; Technical Parameters
Measuring range (steel) 0.15mm ~ 20mm
Resolution 0.001mm, 0.01mm optional
Sound speed adjustment 1000 m / s ~ 9999m / s
Working environment temperature 0 ℃ ~ 40 ℃
Power consumption Maximum operating current does not exceed 30mA (3V without backlight)
Dimensions 152mm × 74 mm × 35 mm
Weight about 220g
Power source Two No. 5 dry batteries
Introduction
TIME2170 Ultrasonic Thickness Gauge is an easy-to-use and accurate measurement instrument, widely used in the measurement of thin parts of metal and non-metallic materials or high-precision measurement.
The principle of ultrasonic thickness measurement is that the ultrasonic pulse emitted by the probe reaches the measured object and propagates in the object, and is reflected back to the probe when it reaches the material interface. The thickness of the measured material is determined by accurately measuring the propagation time of the ultrasonic wave in the material.
