Finite element analysis of fretting fatigue properties of GH4169 superalloy considering the surface treatments

微动 高温合金 材料科学 有限元法 残余应力 叠加原理 涂层 疲劳极限 断裂力学 压力(语言学) 使用寿命 结构工程 复合材料 合金 工程类 语言学 哲学 物理 量子力学
作者
Wang Jingchen,Lu Yao,Xiang Yuan Zheng,Kunhao Xu,Shasha Qi,Xufen Xiao,Xu Wang,Yukui Gao
出处
期刊:International Journal of Fatigue [Elsevier BV]
卷期号:183: 108266-108266 被引量:1
标识
DOI:10.1016/j.ijfatigue.2024.108266
摘要

In the present work, the fretting fatigue properties of GH4169 superalloy at 650℃ were investigated through numerical simulation considering the influences of the surface treatments. As a detrimental phenomenon, fretting fatigue involves fatigue and wear simultaneously, where the coefficient of friction and residual stress fields induced by the surface coating or modification techniques may affect the fretting fatigue lifetimes by changing the complex stress state between the two contacting surfaces. The numerical solutions were implemented to compare the crack initiation angles and paths under different surface conditions. The simulation results indicated that fretting fatigue cracks in residual stress fields were tendentiously parallel to the surface resulting in crack retardation and debris peeling, as verified by experimental observations. Additionally, three propagation models were compared to study the effect of compressive loading on the driving force of crack propagation rates, especially where compressive residual stresses was present. The combination of the linear superposition model with the Harter-T method was proven to be more accurate in the fretting fatigue life prediction, which may provide a modeling basis for service life prediction of engineering components in many practical applications.

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