| 蠕变—热疲劳交互作用的力学机理 |
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| 引用本文: | 闫明,孙志礼,杨强,何雪浤.蠕变—热疲劳交互作用的力学机理[J].机械工程学报,2009,45(1). |
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| 作者姓名: | 闫明 孙志礼 杨强 何雪浤 |
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| 作者单位: | 1. 沈阳工业大学机械工程学院,沈阳,110178;东北大学机械工程与自动化学院,沈阳,110004
2. 东北大学机械工程与自动化学院,沈阳,110004 |
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| 摘 要: | 随着航空航天、能源和化学工业的发展,高温设备的应用越来越广泛.这些设备在稳态运行中受到蠕变损伤,在起动、停车或工况突变时受到热疲劳或热机械疲劳损伤,潜在危险性极大,一旦发生事故往往是灾难性的.考虑材料的双线性随动强化性质和蠕变特性,研究蠕变-热疲劳交互作用的力学机理,得到如下结论: ①升温和保温过程生成的压缩非弹性应变(塑性应变和蠕变应变)越多,降温过程产生的拉应力和拉应变越大,设计受蠕变-热疲劳损伤的构件时宜优先选择具有较高压缩屈服点和较低蠕变速率的脆性材料.②蠕变影响着循环的应力幅和平均应力,并使它们经历一定数量的循环后达到稳定状态,可以把蠕变-热疲劳损伤等效为热机械疲劳损伤,从而使寿命预测和试验简单可行.
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| 关 键 词: | 蠕变-热疲劳 热机械疲劳 交互作用 寿命预测 |
Mechanical Mechanism of Creep-thermal Fatigue Interaction |
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| YAN Ming,SUN Zhili,YANG Qiang,HE Xuehong.Mechanical Mechanism of Creep-thermal Fatigue Interaction[J].Chinese Journal of Mechanical Engineering,2009,45(1). |
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| Authors: | YAN Ming SUN Zhili YANG Qiang HE Xuehong |
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| Abstract: | With the development of aerospace,energy and chemical industry,the high temperature equipment is used more and more widely.Such equipment is subjected to creep damage during steady-state operation and thermal fatigue or then'no-mechanical fatigue damage in the frequent on-off operation or the sudden change of operating mode,its potential danger is great,once an accident happens,it is always catastrophic.The mechanical mechanism of the creep and thermal fatigue interaction is studied by considering the bilin... |
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| Keywords: | Creep-thermal fatigue Thermomechanical fatigue Interaction Life prediction |
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