The fracture behaviour of metal-piezoceramic interfaces under mechanical and electrical loading is examined by four point bending using commercial multilayer actuators. The experiments are performed under stable crack growth in a custom made very stiff testing machine. Besides mechanical loading, a constant electric field was methodically switched on in longitudinal specimen direction. Both poled and unpoled actuators were tested. The crack morphology and the fracture toughness depend on the type of the metal-ceramic interfaces. Assuming different electrical crack boundary conditions of a permeable and an impermeable crack, the field intensity factors K ic , with i = 1, 2, 3, and energy release rates G c (K ic ) at the measured critical loads are evaluated with linear-piezoelectric finite element calculations. Inside the bounds of the electrically induced mixed-mode angles, the permeable crack boundary condition yields a constant interface toughness Γ.
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机译:使用商用多层执行器通过四点弯曲来检查金属-压电陶瓷界面在机械和电气负载下的断裂行为。在定制的非常坚硬的测试机中,在稳定的裂纹扩展下进行实验。除机械负载外,在纵向样品方向上有条不紊地接通了恒定电场。极化和非极化执行器均经过测试。裂纹形态和断裂韧性取决于金属-陶瓷界面的类型。假设渗透性和非渗透性裂纹的电裂纹边界条件不同,则场强因子K ic ,i = 1、2、3和能量释放速率G c 使用线性压电有限元计算来评估在测得的临界载荷下的(K ic )。在电感应混合模角的范围内,渗透性裂纹边界条件产生恒定的界面韧性Γ。
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