新聞資訊
第二相顆粒對Ti-22Al-25Nb合金中B2晶粒長大的抑制作用
發布人:上海艾荔艾金屬材料有限公司www.jshcn.cn
更新時間:2015-08-28
研究了Ti-22Al-25Nb合金中第二相顆粒對于B2晶粒長大的抑制作用。
第二相顆粒對Ti-22Al-25Nb合金中B2晶粒長大的抑制作用Pinning effect of second-phase particles on B2 grain growth
of Ti-22Al-25Nb alloy
研究了Ti-22Al-25Nb合金中第二相顆粒對于B2晶粒長大的抑制作用。采用圖像分析軟件統計了不同加熱溫度和時間下的B2晶粒尺寸。總體上來說,B2晶粒尺寸隨著加熱溫度的升高和時間的延長而增加。隨著加熱時間的延長,原先的α2顆粒逐漸溶解到B2基體里面,α2顆粒的數量減少,這導致顆粒的釘軋作用減弱。當保溫時間少于2
h,加熱溫度從1 000 ℃升高到1 040 ℃時,B2晶粒的平均長大值分別為24、35和53 μm/h。而當加熱時間超過2
h后,B2晶粒的長大速度明顯減慢。Zener模型可以很好地預測第二相顆粒作用下的晶粒長大行為,其預測模型為R=4/9(r/fv)。
The pinning effect of the second-phase particles on B2
grain growth of Ti-22Al-25Nb was investigated. The grain sizes at different heat
treatment temperatures and holding time were obtained by means of the image
analysis software. Generally, the grain size increases with the heating
temperature and time increasing. The α2 particles will be gradually
dissolved and transformed to B2 phase as the holding time increases at a certain
temperature, leading to the decreasing of the pinning effect of α2
particles. The B2 grains grow up at 24, 35 and 53 μm/h in average as the
temperature increases from 1 000 ℃ to 1 040 ℃ with the holding time below 2 h;
while after 2 h, the grains grow up slowly. Zener’s equation is a reliable model
to predict the B2 grain growth and the prediction model can be expressed by
R=4/9(r/fv).
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