Ultrasonic Fatigue Testing System
Ultrasonic fatigue loading involves symmetrical loading, and models with non-symmetrical loading options are available. Cooling options can be selected based on material requirements, with commonly chosen methods including air cooling, as well as other cooling methods such as water cooling or liquid nitrogen. A variety of complementary components are available for your selection, including high-temperature environments, corrosive environments, high-pressure environments, and more.
Ultrasonic Fatigue Testing System
The testable specimens include: rod-shaped, plate-shaped, crack propagation, cantilever bending, and three-point bending specimens.
A high-precision concentricity adjustment device ensures that asymmetrical loading does not occur due to concentricity issues.
For high-temperature environments, the system utilizes the principle of high-frequency induction heating to heat the specimen. During operation, it can be controlled using a constant current control mode, a constant temperature closed-loop PID control mode, or a process curve control mode (with temperature control measured and monitored by an infrared thermometer).
The system is equipped with a air cooling module, ensuring rapid and precise cooling of the specimen and transducer components during the temperature control process.
UFT-CORE Controller (High test speed and precision ensure the reliability of data at ultrahigh-frequency cycles)
The seamless integration of UFT testing software and control system ensures the safe, effective, and reliable operation of the testing machine. The UFT software provides suitable solutions for any testing requirements.
It enables experiment data management, system calibration, dynamic elastic modulus determination, sample design, system frequency scanning, and monitoring of ultrasonic fatigue tests. The interface features a clear left-side navigation bar, and various functional modules are easily accessible for quick navigation. Historical projects are conveniently displayed, allowing one-click retrieval and continuation of unfinished projects.
The system organizes experimental data using an experiment project system, which includes data types such as system calibration data, dynamic elastic modulus determination data, sample design data, system frequency scanning data, and test data. Data can be exported to EXCEL spreadsheet files and text reports.
Comprehensive system operation documents and examples are provided for user reference.
