机械工程材料
機械工程材料
궤계공정재료
Materials for Mechanical Engineering
2015年
11期
27-31,35
,共6页
欧阳金栋%陈明和%刘慧慧%王辉%王琦%赵海艳
歐暘金棟%陳明和%劉慧慧%王輝%王琦%趙海豔
구양금동%진명화%류혜혜%왕휘%왕기%조해염
TC1 钛合金%流变应力%显微组织%本构方程
TC1 鈦閤金%流變應力%顯微組織%本構方程
TC1 태합금%류변응력%현미조직%본구방정
TC1 titanium alloy%flow stress%microstructure%constitute equation
通过试验研究了TC1钛合金在变形温度为650~750℃、应变速率为0.0005~0.01 s-1条件下拉伸时的流变应力及组织演变规律;利用改进的Hooke定律和Grosman方程建立了TC1钛合金在高温下的应力-应变本构模型.结果表明:在应变速率一定时,TC1钛合金的流变应力随温度升高快速下降,当温度达到700℃并继续升高时,流变应力下降减缓;当变形温度一定时,流变应力随应变速率的增加而快速增大;TC1钛合金在700℃变形时,低的应变速率可以促进动态再结晶的发生;依据拉伸试验数据建立的本构方程能够较准确地反映TC1钛合金在高温下的流变行为.
通過試驗研究瞭TC1鈦閤金在變形溫度為650~750℃、應變速率為0.0005~0.01 s-1條件下拉伸時的流變應力及組織縯變規律;利用改進的Hooke定律和Grosman方程建立瞭TC1鈦閤金在高溫下的應力-應變本構模型.結果錶明:在應變速率一定時,TC1鈦閤金的流變應力隨溫度升高快速下降,噹溫度達到700℃併繼續升高時,流變應力下降減緩;噹變形溫度一定時,流變應力隨應變速率的增加而快速增大;TC1鈦閤金在700℃變形時,低的應變速率可以促進動態再結晶的髮生;依據拉伸試驗數據建立的本構方程能夠較準確地反映TC1鈦閤金在高溫下的流變行為.
통과시험연구료TC1태합금재변형온도위650~750℃、응변속솔위0.0005~0.01 s-1조건하랍신시적류변응력급조직연변규률;이용개진적Hooke정률화Grosman방정건립료TC1태합금재고온하적응력-응변본구모형.결과표명:재응변속솔일정시,TC1태합금적류변응력수온도승고쾌속하강,당온도체도700℃병계속승고시,류변응력하강감완;당변형온도일정시,류변응력수응변속솔적증가이쾌속증대;TC1태합금재700℃변형시,저적응변속솔가이촉진동태재결정적발생;의거랍신시험수거건립적본구방정능구교준학지반영TC1태합금재고온하적류변행위.
Flow stress and microstructure evoluation of TC1 titanium alloy at high temperatures ranging from 650 ℃ to 750 ℃,and strain rates from 0.000 5 s-1 to 0.01 s-1 through tensile test.Constitute equation at high temeperature were obtained based on the revised Hooke law and Grosman equations.The results show that the flow stress decreased rapidly at first with the increase of temperature,and then decreased slowly when temperature up to 700 ℃ at constant strains rate.When deformation temperature was constant,flow stress increased with the increase of strain rate.When TC1 titanium alloy deformed at 700 ℃,low strain rate could contribute to the occurrence of dynamic recrystallization.The constitutive equation obtained according to experimental data could accurately reflect the flow behavior of TC1 titanium alloy at high temperature.