Life prediction for high temperature low cycle fatigue of two kinds of titanium alloys based on exponential function
The high temperature low cycle fatigue tests of TC4 titanium alloy and TC11 titanium alloy are carried out under strain controlled.The relationships between cyclic stresslife and strain-life are analyzed.The high temperature low cycle fatigue life prediction model of two kinds of titanium alloys is established by using Manson-Coffin method.The relationship between failure inverse number and plastic strain range presents nonlinear in the double logarithmic coordinates.Manson-Coffin method assumes that they have linear relation.Therefore,there is bound to be a certain prediction error by using the Manson-Coffin method.In order to solve this problem,a new method based on exponential function is proposed.The results show that the fatigue life of the two kinds of titanium alloys can be predicted accurately and effectively by using these two methods.Prediction accuracy is within ±1.83 times scatter zone.The life prediction capability of new methods based on exponential function proves more effective and accurate than Manson-Coffin method for two kinds of titanium alloys.The new method based on exponential function can give better fatigue life prediction results with the smaller standard deviation and scatter zone than Manson-Coffin method.The life prediction results of two methods for TC4 titanium alloy prove better than TC11 titanium alloy.
G Y Mu X Z Mi F Wang
Mechanical Engineering College,Dalian JiaoTong University,794 Huanghe Road.Dalian,116028,China;Mecha Traffic and Transportation College,Dalian JiaoTong University,794 Huanghe Road,Dalian,116028,China Motor Train College,Dalian JiaoTong University,794 Huanghe Road,Dalian,116028,China
国际会议
三亚
英文
1-7
2017-11-18(万方平台首次上网日期,不代表论文的发表时间)