通过对形变奥氏体组织进行长期时效观察合金相演化过程,研究了低放射性亚稳奥氏体Fe-Cr-Mn(W,V)合金的组织稳定性.实验表明:合金在高于400℃时,相平衡处在γ+α+σ三相区,低于400℃可以保证亚稳奥氏体的稳定性.亚稳奥氏体可以发生γ→ε→α′→α转变也可以发生γ→γ(f)→α′(f)→α转变,ε马氏体不是γ→α转变的唯一中间过渡相.形变诱发ε马氏体形成过程中伴随奥氏体晶粒碎化,可产生细晶强化作用,这是开发亚稳奥氏体Fe-Cr-Mn合金的重要途径.
参考文献
| [1] | Gelles D S .Research and development of iron-based alloys for nuclea r technology[J].ISIJ International,1990,30(11):905. |
| [2] | Cole J I;Hoyt J J;Gelles D S .Phase stability in thermally aged Fe-Cr-Mn all oys[J].Journal of Nuclear Materials,1992,657:381-393. |
| [3] | Rivlin V G;Raynor G V .The phase diagram of Fe-Cr-Mn system[J].International Metals Reviews,1983,28(01):26. |
| [4] | Gurgess C O;Forgeng W D .The isothermal section of the Fe-Cr-Mn system[J].Transactions AIME,1938,131:277. |
| [5] | Murata Y;Kazuhiro K;Matsumoto Y et al.Equilibrium phase diagram of Fe-Cr-Mn ternary system[J].ISIJ International,1990,30(11):927. |
| [6] | Benfu H;Takahashi H .Behavious of resistance to irradiated damage in Fe-Cr-M n(W.V)alloys with low induced radioactivity[J].Chinese Journal of Nucl Scie and Eng,1997,27:143. |
| [7] | Dash J;Otte H M .The martensite transformation in stainless steel[J].Acta Materialia,1963,11:1170. |
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