中国有色金属学报
中國有色金屬學報
중국유색금속학보
THE CHINESE JOURNAL OF NONFERROUS METALS
2014年
10期
2506-2512
,共7页
赵堃%刘咏%黄岚%刘彬%李建波%梁霄鹏%贺跃辉
趙堃%劉詠%黃嵐%劉彬%李建波%樑霄鵬%賀躍輝
조곤%류영%황람%류빈%리건파%량소붕%하약휘
TiAl合金%热处理%组织演变%晶粒长大
TiAl閤金%熱處理%組織縯變%晶粒長大
TiAl합금%열처리%조직연변%정립장대
titanium aluminide alloy%heat treatment%microstructure evolution%grain growth
对锻造态的粉末冶金Ti-45Al-7Nb-0.3W(摩尔分数,%)合金进行后续热处理,研究热处理时间和热处理温度对合金组织演变的影响,利用扫描电镜及透射电镜对合金显微组织进行观察。结果表明:在1230~1260℃温度区间热处理可消除锻造态合金的少量β相。在该温度区间进行等时热处理时,随着热处理温度的升高,α晶粒和γ晶粒迅速长大,γ相体积分数急剧减小,且α晶粒趋于等轴化。合金在1260℃进行等温热处理时,热处理时间由0.5 h延长至6 h,α晶粒和γ晶粒迅速长大,γ相体积分数降低,继续延长热处理时间,显微组织没有明显的变化。通过计算可知,1260℃下α晶粒尺寸的极限值约为0.54 Dγ/Vγ(Dγ为γ晶粒尺寸;Vγ为γ晶粒体积分数)。
對鍛造態的粉末冶金Ti-45Al-7Nb-0.3W(摩爾分數,%)閤金進行後續熱處理,研究熱處理時間和熱處理溫度對閤金組織縯變的影響,利用掃描電鏡及透射電鏡對閤金顯微組織進行觀察。結果錶明:在1230~1260℃溫度區間熱處理可消除鍛造態閤金的少量β相。在該溫度區間進行等時熱處理時,隨著熱處理溫度的升高,α晶粒和γ晶粒迅速長大,γ相體積分數急劇減小,且α晶粒趨于等軸化。閤金在1260℃進行等溫熱處理時,熱處理時間由0.5 h延長至6 h,α晶粒和γ晶粒迅速長大,γ相體積分數降低,繼續延長熱處理時間,顯微組織沒有明顯的變化。通過計算可知,1260℃下α晶粒呎吋的極限值約為0.54 Dγ/Vγ(Dγ為γ晶粒呎吋;Vγ為γ晶粒體積分數)。
대단조태적분말야금Ti-45Al-7Nb-0.3W(마이분수,%)합금진행후속열처리,연구열처리시간화열처리온도대합금조직연변적영향,이용소묘전경급투사전경대합금현미조직진행관찰。결과표명:재1230~1260℃온도구간열처리가소제단조태합금적소량β상。재해온도구간진행등시열처리시,수착열처리온도적승고,α정립화γ정립신속장대,γ상체적분수급극감소,차α정립추우등축화。합금재1260℃진행등온열처리시,열처리시간유0.5 h연장지6 h,α정립화γ정립신속장대,γ상체적분수강저,계속연장열처리시간,현미조직몰유명현적변화。통과계산가지,1260℃하α정립척촌적겁한치약위0.54 Dγ/Vγ(Dγ위γ정립척촌;Vγ위γ정립체적분수)。
Powder metallurgy Ti-45Al-7Nb-0.3W (mole fraction, %) alloy was canned-forged and then heat-treated. The effects of heat treatment time and temperature on the alloy microstructure evolution were studied. The microstructures of as-forged alloy and heat-treated alloy were investigated by scanning and transmission microscopy. The results demonstrate that a fewβ grains in as-forged alloy are eliminated during heat treatments in the temperature range of 1230?1260℃. Isochronal annealing experiments show that theα grain size andγ grain size rapidly increase with increasing the temperature, while the volume fraction ofγ phase steeply decreases andα grains become equiaxial. Isothermal annealing experiments at 1260℃ for 0.5?6 h reveal a sharp increase ofα grain size andγ grain size with time. Meantime, the volume fraction ofγ phase decreases. The microstructure of alloy shows no significant change during prolonging the annealing time. By calculation, the extremeα grain size at 1260℃ is approximately 0.54Dγ/Vγ (Dγ is short forγ grain size andVγ is short or the volume fraction ofγ phase).
