Fatigue life estimation under cumulative cyclic loading conditions

S. Kalluri, M. Mcgaw, G. Halford
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引用次数: 5

Abstract

The cumulative fatigue behavior of a cobalt-base superalloy, Haynes 188, was investigated at 760°C in air. Initially, strain-controlled tests were conducted on solid cylindrical gage section specimens of Haynes 188 under fully reversed, tensile and compressive mean strain-controlled fatigue tests. Fatigue data from these tests were used to establish the baseline fatigue behavior of the alloy with (1) a total strain range type fatigue life relation and (2) the Smith-Watson-Topper (SWT) parameter. Subsequently, two load-level multi-block fatigue tests were conducted on similar specimens of Haynes 188 at the same temperature. Fatigue lives of the multi-block tests were estimated with (1) the linear damage rule (LDR) and (2) the nonlinear damage curve approach (DCA) both with and without the consideration of mean stresses generated during the cumulative fatigue tests. Fatigue life predictions by the nonlinear DCA were much closer to the experimentally observed lives than those obtained by the LDR. In the presence of mean stresses, the SWT parameter estimated the fatigue lives more accurately under tensile conditions than under compressive conditions.
累积循环载荷条件下的疲劳寿命估算
研究了钴基高温合金Haynes 188在760℃空气中的累积疲劳行为。首先,在Haynes 188固体圆柱形截面试样上进行了完全反向、拉伸和压缩平均应变控制疲劳试验。这些试验的疲劳数据被用来建立合金的基线疲劳行为(1)总应变范围型疲劳寿命关系和(2)Smith-Watson-Topper (SWT)参数。随后,对Haynes 188相似试件在相同温度下进行了2次载荷水平多块疲劳试验。分别采用(1)线性损伤规则法(LDR)和(2)非线性损伤曲线法(DCA)对多块试验疲劳寿命进行估计,并分别考虑累积疲劳试验产生的平均应力和不考虑累积疲劳试验产生的平均应力。与LDR相比,非线性DCA预测的疲劳寿命更接近实验观察寿命。在平均应力存在的情况下,SWT参数在拉伸条件下比在压缩条件下更准确地估计疲劳寿命。
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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