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作 者:刘艳侠[1] 王月华[1] 马永庆[2] 戴玉梅[2]
机构地区:[1]辽宁大学物理系,沈阳110036 [2]大连海事大学机电与材料工程学院,辽宁大连116026
出 处:《材料科学与工艺》2008年第2期224-227,共4页Materials Science and Technology
基 金:高等学校博士学科点专项科研基金资助项目(20030151006);辽宁省教育厅高等学校科学研究资助项目(2004F0003)
摘 要:为了研究多元合金基体的稳定性,探讨了获得多元合金团簇平衡几何构型的途径,根据随机行走思想编写了多元合金构型优化的计算程序,并铸造了3种合金样品,其基体成分分别为Fe7Cr0.68Mn2.0V1.47Ni1.37Si0.7C,Fe8Cr0.74Mn2.3V1.45Ni1.55Si0.5C,Fe7Cr0.80Mn1.86V1.47Ni1.47Si0.8C,研究了这3种Fe基多元合金奥氏体基体的稳定性及平衡几何构型.计算结果表明:合金1的奥氏体基体最稳定,合金3的奥氏体基体最不稳定,最容易转变成马氏体,与X射线衍射结果一致.To study the stability of the multi-composition alloy matrix, the approaches were discussed for obtaining the equilibrium geometry(EG) of multi-composition alloy clusters(MCACs). A program to obtain the EG of MCACs was designed by random walk method. By the program, the calculational time is remarkably short, so it is a simple and feasible method. Three kinds of alloy samples were cast, and the compositions of matrix were Fe7Cr0.68Mn2.0V1.47Ni1. 37Si0.7C ( alloyl ), Fe8Cr0.74Mn2.3V1.45Ni1.55Si0.5C ( alloy2 ), and Fe7Cr0.80Mn1. 86V1.47Ni1.47Si0.8C (alloy3), respectively. The stability and the EG of the three kinds of Fe-based MCACs austenitic matrix were studied. The results showed that: austenitic matrix of the alloyl was the most stable; the austenitic matrix of the alloy3 was the most instable, and it could transform into martensite easily. The calculation results agree with the X-Ray diffraction experimental results.
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