中国有色金属学报
中國有色金屬學報
중국유색금속학보
The Chinese Journal of Nonferrous Metals
2015年
8期
2108-2114
,共7页
钛合金%晶粒长大%TiB%激活能
鈦閤金%晶粒長大%TiB%激活能
태합금%정립장대%TiB%격활능
titanium alloy%grain growth%TiB%activation energy
通过高温固溶及淬火处理,研究TiB晶须对Ti-B20合金β晶粒长大行为的影响.结果表明:处于晶界的TiB晶须显著限制了β晶粒的高温长大,在高于相变点125℃固溶120 min后,Ti-B20-0.1B合金中β晶粒尺寸仅长大了55 μm,而Ti-B20合金晶粒长大了220 μm.从动力学角度分析了晶粒长大规律,Ti-B20合金的晶粒长大指数处于0.33~0.35范围内,接近于理论值0.5;而Ti-B20-0.1B合金的晶粒长大指数非常小,处于0.049~0.052范围内.计算结果表明:Ti-B20-0.1B合金的激活能显著高于Ti-B20合金的.含硼钛合金中TiB晶须长轴平行于晶界时,对晶粒长大的限制作用更显著.
通過高溫固溶及淬火處理,研究TiB晶鬚對Ti-B20閤金β晶粒長大行為的影響.結果錶明:處于晶界的TiB晶鬚顯著限製瞭β晶粒的高溫長大,在高于相變點125℃固溶120 min後,Ti-B20-0.1B閤金中β晶粒呎吋僅長大瞭55 μm,而Ti-B20閤金晶粒長大瞭220 μm.從動力學角度分析瞭晶粒長大規律,Ti-B20閤金的晶粒長大指數處于0.33~0.35範圍內,接近于理論值0.5;而Ti-B20-0.1B閤金的晶粒長大指數非常小,處于0.049~0.052範圍內.計算結果錶明:Ti-B20-0.1B閤金的激活能顯著高于Ti-B20閤金的.含硼鈦閤金中TiB晶鬚長軸平行于晶界時,對晶粒長大的限製作用更顯著.
통과고온고용급쉬화처리,연구TiB정수대Ti-B20합금β정립장대행위적영향.결과표명:처우정계적TiB정수현저한제료β정립적고온장대,재고우상변점125℃고용120 min후,Ti-B20-0.1B합금중β정립척촌부장대료55 μm,이Ti-B20합금정립장대료220 μm.종동역학각도분석료정립장대규률,Ti-B20합금적정립장대지수처우0.33~0.35범위내,접근우이론치0.5;이Ti-B20-0.1B합금적정립장대지수비상소,처우0.049~0.052범위내.계산결과표명:Ti-B20-0.1B합금적격활능현저고우Ti-B20합금적.함붕태합금중TiB정수장축평행우정계시,대정립장대적한제작용경현저.
The effect of TiB whisker on theβgrain growth behavior of Ti-B20 alloy was studied through solution treatment at high temperature and quenching. The results show that the TiB whisker at grain boundary significantly restricts theβgrain growth when temperature is high. When solution treated at a temperature the 125℃ higher than the transformation temperature for 120 min, the size ofβ grain in Ti-B20-0.1B alloy increases by only 55μm, whilethe size of the grain in Ti-B20 alloy increases by 220μm. The rule of grain growthwas analyzed by dynamics. The result shows that the grain growth exponent of Ti-B20 alloy is in the range of 0.33-0.35 which is close to the theoretical value of 0.5, while that of Ti-B20-0.1B alloy is quite small which is in the range of 0.049-0.052. The calculation result shows that the activation energy of Ti-B20-0.1B alloy is much higher than that of Ti-B20 alloy. When the long axis of TiB whisker in titanium alloy containing boron parallels to the grain boundary, the TiB whisker has more significant restrictive effect on the grain growth.