材料科学
残余应力
成核
复合材料
断裂力学
裂缝闭合
断裂(地质)
应力集中
疲劳极限
裂纹扩展阻力曲线
紧凑拉伸试样
巴黎法
平面的
工作(物理)
压力(语言学)
残余物
硬度
抗压强度
疲劳试验
曲面(拓扑)
残余强度
结构工程
钛合金
金属
循环应力
灵敏度(控制系统)
机械
强度因子
作者
Mirco D. Chapetti,S. D’Amico
摘要
ABSTRACT The present work is focused on the analysis of configurations in metallic components subjected to cyclic loading, in which fatigue crack nucleation is generated in zones where hardness gradients and/or residual stress gradients are present. In the first case, a gradient of resistance to the nucleation and propagation of small cracks is produced, whereas in the second case, gradients in load ratios are generated as the crack propagates. A fatigue crack propagation prediction approach based on fracture mechanics is proposed, through which the influence of the hardness gradient on the definition of the fatigue crack growth resistance curve and the effect of the compressive residual stress gradient on the quantification of the resulting driving force are accounted for. The approach is applied to a carburized steel with surface shot peening, for which fatigue failure results, including those in the presence of artificial semicircular planar defects with depths of 0.15, 0.2, and 0.3 mm, have been reported in the literature. The results of the estimations are analyzed and found to be highly satisfactory, and several important aspects are discussed.
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