采用Taylor类型多晶体塑性变形模型,模拟了初始自由分布和近似立方织构多晶铝的轧制织构演变.应用取向线分析方法将不同模型的理论计算结果进行了系统分析,并与实测轧制织构进行了比较.结果表明:在低轧制变形程度时,完全限制(FC)模型计算结果的取向分布较其它模型更符合实际结果.在较高程度轧制变形时,对于初始自由分布的多晶铝轧制试样,lath模型与实验符合较好;而对于初始具有近似立方织构的样品,使用混合模型结果较佳.
参考文献
| [1] | Chen Z Y,Cai H N,Chang Y Z,Zhang X M,Liu C M.Acta Metall Sin,2008; 44:1316(陈志永,才鸿年,常亚喆,张新明,刘楚明.金属学报,2008;44:1316) |
| [2] | Chen Z Y,Zhang X M,Zhou Z P,Li S Y,Yang Y.Trans Nonferrous Met Soc China,1999; 9:307 |
| [3] | Taylor G I.J Inst Met,1938; 62:307 |
| [4] | Mecking H.In:Nagashima S,ed.,Proc 6th Int Conf on Textures of Materials,Tokyo:Iron and Steel Institute of Japan,1981:53 |
| [5] | Bunge H J,Leffers T.Scr Metall,1971; 5:143 |
| [6] | Canova G R,Kocks U F.In:Brakman C M,Jongenburger P,Mittemeijer E J,eds.,Proc 7th Int Conf on Textures of Materials,Noordwijkerhout:Netherlands Society of Materials Science,1984:573 |
| [7] | Asaro R J,Needleman A.Acta Metall,1985,33:923 |
| [8] | Renouard M,Wintenberger M.C R Acad Sci,1976; 283B:237 |
| [9] | Honneff H,Mecking H.In:Gottstein G,Lücke K,eds.,Proc 5th Int Conf on Textures of Materials,Aachen:Springer,1978:265 |
| [10] | van Houtte P.In:Nagashima S,ed.,Proc 6th Int Conf on Textures of Materials,Tokyo:Iron and Steel Institute of Japan,1981:428 |
| [11] | Kocks U F,Chandra H.Acta Metall,1982; 30:695 |
| [12] | Fortunier R,Driver J H.Acta Metall,1987; 35:509 |
| [13] | Hirsch J,Lücke K.Acta Metall,1988; 36:2883 |
| [14] | Sachs E.Z Ver Deut Ing,1928; 72:734 |
| [15] | Pérocheau F,Driver J H.Int J Plast,2000; 16:73 |
| [16] | Raabe D,Zhao Z,Mao W.Acta Mater,2002; 50:4379 |
| [17] | Cao P,Fang G,Lei L P,Zeng P.Acta Metall Sin,2007; 43:913(曹鹏,方刚,雷丽萍,曾攀.金属学报,2007;43:913) |
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