Time-dependent recovery of the elastic modulus in thermally shocked polycrystalline yttrium iron garnet (YIG)

H.M. Chou, E.D. Case
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引用次数: 6

Abstract

Thermal shock damage is typically characterized by “single quench-fracture tests” in which a specimen is quenched a single time into a water bath, then fractured. However, technical ceramics, such as engine components, solar collectors and ceramic computer memory substrates, must tolerate repeated thermal shocks under service conditions. Therefore, the understanding of damage induced by multiple thermal shocks is very important. Thermal shock damage caused by repeated thermal fatigue in yttrium iron garnet (YIG) was monitored by nondestructive elasticity measurements for each cycle of shock. For a relatively low level of shock-induced damage, an unexpected time-dependent recovery of the elastic modulus at room temperature was observed, and successfully characterized by a non-homogeneous, linear, first-order differential equation.

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热冲击多晶钇铁石榴石弹性模量随时间的恢复
热冲击损伤的典型特征是“单次淬火-断裂试验”,在该试验中,试样在水浴中淬火一次,然后断裂。然而,技术陶瓷,如发动机部件,太阳能集热器和陶瓷计算机存储器衬底,必须在使用条件下承受反复的热冲击。因此,了解由多重热冲击引起的损伤是非常重要的。采用非破坏性弹性测量法对钇铁石榴石(YIG)进行了反复热疲劳引起的热冲击损伤监测。对于相对较低水平的冲击损伤,在室温下观察到弹性模量的意外时间依赖性恢复,并成功地用非齐次线性一阶微分方程表征。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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