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温度和轧制方向对TC1合金板材疲劳行为的影响
引用本文:吕伟,陈立佳,车欣,刘正. 温度和轧制方向对TC1合金板材疲劳行为的影响[J]. 沈阳工业大学学报, 2012, 34(5): 504-508
作者姓名:吕伟  陈立佳  车欣  刘正
作者单位:沈阳工业大学材料科学与工程学院;沈阳航空航天大学材料科学与工程学院
基金项目:辽宁省高校重点实验室支持计划资助项目(2008S163)
摘    要:为了确定试验温度和轧制方向对TC1钛合金板材的高周疲劳寿命及断裂行为的影响,针对平行于和垂直于轧制方向的TC1钛合金板材在不同试验温度下进行了应力控制的拉-拉疲劳试验,并对相应的疲劳断裂机制进行了分析.结果表明,平行于和垂直于轧制方向的TC1钛合金板材的疲劳极限及其在相同外加应力下的疲劳寿命均随着试验温度的升高而降低;相同试验温度下,垂直于轧制方向的TC1钛合金板材的疲劳极限和疲劳寿命均高于平行于轧制方向的TC1钛合金板材.在应力控制的高周疲劳加载条件下,轧制态TC1钛合金板材的疲劳裂纹均以穿晶方式萌生于疲劳试样表面,并以穿晶方式扩展.

关 键 词:钛合金  轧制  高周疲劳  S-N曲线  疲劳寿命  疲劳极限  循环应力  穿晶断裂  

Influence of temperature and rolling direction on fatigue behavior of TC1 titanium alloy plate
LV Wei,CHEN Li-jia,CHE Xin,LIU Zheng. Influence of temperature and rolling direction on fatigue behavior of TC1 titanium alloy plate[J]. Journal of Shenyang University of Technology, 2012, 34(5): 504-508
Authors:LV Wei  CHEN Li-jia  CHE Xin  LIU Zheng
Affiliation:1(1.School of Materials Science and Engineering,Shenyang University of Technology,Shenyang 110870,China;2.School of Material Science and Engineering,Shenyang Aerospace University,Shenyang 110136,China)
Abstract:In order to identify the influence of testing temperature and rolling direction on the high-cycle fantigue life and fracture behavior of TC1 titanium alloy plate,the stress-controlled tension-tension fatigue tests for TC1 alloy plates both parallel and perpendicular to rolling direction were conducted at different temperatures.And the corresponding fatigue fracture mechanism was analyzed.The results show that for TC1 alloy plates both parallel and perpendicular to rolling direction,the fatigue limit and fatigue lives at the same imposed stress decrease with increasing the testing temperature.At the same temperature,the fatigue limit and fitigue lives of TC1 alloy plate perpendicular to rolling direction are higher than those of TC1 alloy plate parallel to rolling direction.Under the stress-controlled high-cycle fatigue loading condition,the fatigue cracks initiate and propagate in a transgranular mode for the rolled TC1 titanium alloy plate.
Keywords:titanium alloy  rolling  high-cycle fatigue  S-N curve  fatigue life  fatigue limit  cyclic stress  transgranular fracture
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