Design of High Frequency Fatigue Testing Machine Driven by Piezoelectric Vibrator

Meng Jie; Hai Feng Xie; Yan Liu; Zhi Gang Yang

doi:10.4028/www.scientific.net/AMM.220-223.543

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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 220-223Design of High Frequency Fatigue Testing Machine...

Design of High Frequency Fatigue Testing Machine Driven by Piezoelectric Vibrator

Abstract:

In order to measure the fatigue property of the small and hard brittle components working under conditions of the little amplitude, high frequency force, a novel kind of resonant high frequency fatigue testing machine which is driven by the piezoelectric vibrator (PZT、PLZT or PMN) has been proposed. Firstly, the working principle of the piezoelectric resonance high frequency fatigue testing machine is analyzed, and the dynamic model of the fatigue testing machine is established to get the systemic dynamic characteristics. Then a prototype is designed and produced. Finally, the maximum load on the sample is measured by the test with the machine. The results indicate that the maximum load on the sample is 23.4N-98.1N when changing the voltage (100V-250V) and the thickness of the plate spring (1.1mm-0.6mm). The prototype made in this paper is suitable for the tensile and fatigue testing with the load level mentioned above under the condition of little amplitude and high frequency force.