On low cycle fatigue life of nickel-based superalloy valve membranes under non-proportional cyclic loading

M. Abbadi; S. Belouettar; P. Muzzo; P. Kremer; O. Oussouaddi; A. Zeghloul

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On low cycle fatigue life of nickel-based superalloy valve membranes under non-proportional cyclic loading

机译：非比例循环载荷下镍基高温合金阀膜的低周疲劳寿命

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A numerical model for low cycle fatigue damage analysis of valve membranes is presented in this paper. The isotropic and non-linear kinematic hardening laws of Lemaitre-Chaboche, which define both the cyclic hardening and the ratchetting phenomenon, are adopted. The model for prediction of the number of cycles to crack initiation is based on a combination between Manson-Coffin relationship and Jiang-Sehitoglu fatigue parameter. The applied cyclic loading consists in a load pressure imposed to the internal face of the membrane and a vertical displacement of its hub section. The experimental results and numerical simulation predictions in terms of number of cycles to failure turned out to be in good concordance. Thus, numerical predictions are confirmed by microscopic observations made on membranes failed during testing.

机译：提出了阀膜低周疲劳损伤分析的数值模型。采用了定义循环硬化和棘轮现象的Lemaitre-Chaboche的各向同性和非线性运动硬化定律。预测裂纹萌生周期数的模型基于Manson-Coffin关系和Jiang-Sehitoglu疲劳参数之间的组合。施加的周期性载荷包括施加到膜的内表面的载荷压力和其毂部分的垂直位移。实验结果和数值模拟预测在失败的周期数方面是一致的。因此，通过对在测试过程中失败的膜进行的微观观察证实了数值预测。

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来源
《International Journal of Fatigue》 |2008年第7期|1160-1168|共9页
作者
M. Abbadi; S. Belouettar; P. Muzzo; P. Kremer; O. Oussouaddi; A. Zeghloul;
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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
low cycle fatigue; contact fatigue; crack initiation; numerical modelling; nickel-based superalloys;

机译：低周疲劳;接触疲劳裂纹萌生数值建模;镍基高温合金;

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7. Cyclic Deformation and Low-Cycle Fatigue for 316LN Stainless Steel under Non-proportional Loading [O] . Yajing Li, Bin Ren, Xu Chen 2019

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8. High Temperature Low-Cycle Fatigue Mechanisms in Single Crystals of Nickel-Based Superalloy Mar-M 200 [R] . Milligan, W. W., Jayaraman, N. 1984

机译：镍基高温合金mar-m 200单晶的高温低周疲劳机制

On low cycle fatigue life of nickel-based superalloy valve membranes under non-proportional cyclic loading

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