Overview
LEEB U933 High Accuracy Ultrasonic Thickness Gauge built-in high-speed thermal printer supports on-site real-time printing to ensure the fairness of measurement results and long-term storage and traceability of data. The instrument can accurately measure various plates and processed parts, and can monitor the degree of thinning of pipes and Pressure Vessels in production equipment after corrosion during use. It is widely used in petroleum, chemical industry, metallurgy, shipbuilding, aviation, aerospace and other fields.
Features
1. For the known thickness of composite and unknown materials, the accurate Speed of sound can be measured backwards.
2. The upper and lower tolerance can be set to exceed the automatic alarm.
3. All Chinese interface operation, easy to use.
4. Suitable for measurement of metal (such as steel, cast iron, aluminum, copper, etc.), plastic, ceramic, Glass, fiberglass and Miscellaneous ultrasonic conductor thickness.
5. With coupling status prompt function.
6. Equipped with high-luminance LED backlight display, it is convenient to use in dim environments with rays of light.
7. With the remaining power indicator function, it can display the remaining battery power.
8. With power-saving functions such as automatic sleep and automatic shutdown.
9. Compact, Portable, Reliability, Suitable for harsh operating environments, Anti-Vibration, Impact and Electromagnetic Interference.
10. Metric and imperial units are optional.
11. Supports data transmission, is equipped with a USB interface, and can be connected to a PC.
12. Built-in thermal printer, can directly print the current measurement data or select a set of data stored.
Principle
The instrument uses the ultrasonic Measurement principle, which is suitable for the measurement of the thickness of various materials that can make ultrasonic waves propagate inside it at a constant speed and can get reflection from its back. The principle is similar to that of light wave measurement: the ultrasonic pulse emitted by Probe arrives at the measured object and propagates in it. When it reaches the material interface, it is reflected back to Probe, and the thickness of the measured material is determined by precise measurement of the time for ultrasonic waves to propagate in the material.
Applications
Petroleum, chemical industry, metallurgy, shipbuilding, aviation, aerospace
