兵器材料科学与工程
兵器材料科學與工程
병기재료과학여공정
Ordnance Material Science and Engineering
2013年
3期
86-88,89
,共4页
钟应%梁益龙%杨明
鐘應%樑益龍%楊明
종응%량익룡%양명
TC4钛合金%流变应力%变形激活能%热变形方程
TC4鈦閤金%流變應力%變形激活能%熱變形方程
TC4태합금%류변응력%변형격활능%열변형방정
TC4 titanium alloy%flow stress%deformation activation energy%hot deforming formulation
利用Gleeble-3800热模拟机对TC4钛合金在550~800℃温区进行热变形试验研究。通过真应力、真应变分析得到TC4钛合金峰值应力随温度升高而降低、应变速率增大而升高,确定了550~800℃温区热变形激活能、建立了流变应力本构关系以及峰值应力与温度和变形速率之间的函数关系。通过热变形模拟为TC4钛合金热加工参数的合理制定与控制提供依据。
利用Gleeble-3800熱模擬機對TC4鈦閤金在550~800℃溫區進行熱變形試驗研究。通過真應力、真應變分析得到TC4鈦閤金峰值應力隨溫度升高而降低、應變速率增大而升高,確定瞭550~800℃溫區熱變形激活能、建立瞭流變應力本構關繫以及峰值應力與溫度和變形速率之間的函數關繫。通過熱變形模擬為TC4鈦閤金熱加工參數的閤理製定與控製提供依據。
이용Gleeble-3800열모의궤대TC4태합금재550~800℃온구진행열변형시험연구。통과진응력、진응변분석득도TC4태합금봉치응력수온도승고이강저、응변속솔증대이승고,학정료550~800℃온구열변형격활능、건립료류변응력본구관계이급봉치응력여온도화변형속솔지간적함수관계。통과열변형모의위TC4태합금열가공삼수적합리제정여공제제공의거。
The hot deformation tests were carried out by Gleeble?3800 thermal simulator on TC4 titanium alloy at deformation temperature 550 to 800 ℃. The analysis of stress?strain curves of TC4 titanium alloy shows that the peak stress increases with decreasing the deformation temperature and increasing the strain rate. The hot deformation activation energy for temperature 550 to 800 ℃,constitutive relation,the relation between peak stress and deformation temperature and strain rate are obtained for annealed TC4 titanium alloy. Thermal deformation simulation can provide basis for choosing hot working parameters of TC4 titanium alloy.
