Shear-driven high-temperature fatigue crack growth in polycrystalline alumina

Ching-Hua Huang, J.K. Shang
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引用次数: 5

Abstract

High-temperature crack growth behavior of a polycrystalline alumina was examined under Mode-I tension-tension cyclic loading. Locally at the crack tip, the fatigue crack was found to advance is shear by fractional sliding of grains on alternating sets of planes of the maximum shear. Evidence of a shear-driven crack growth was given in terms of topological and morphological analyses of the fatigue crack surface, grain sliding, frictional debris, and temperature-dependence of fatigue crack growth kinetics. Based on experimental observations, a new model of fatigue crack growth by alternating shear was proposed.

剪切驱动的多晶氧化铝高温疲劳裂纹扩展
研究了多晶氧化铝在i型拉伸-拉伸循环加载下的高温裂纹扩展行为。在裂纹尖端局部,疲劳裂纹通过晶粒在最大剪切面交替组合上的分数滑动推进剪切。从疲劳裂纹表面的拓扑和形态分析、晶粒滑动、摩擦碎屑和疲劳裂纹扩展动力学的温度依赖性等方面给出了剪切驱动裂纹扩展的证据。在实验观察的基础上,提出了一种新的交替剪切疲劳裂纹扩展模型。
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