利用拉伸split Hopkinson bar实验装置研究了SiCP/6061Al复合材料及其基体合金的动态拉伸性能及应变硬化行为.结果表明,与静态加载类似,在动态加载条件下,SiCP/6061Al复合材料的强度高于基体合金的强度,其断裂延伸率低于基体合金的断裂延伸率.在低应变动态拉伸时,复合材料的应变硬化指数高于Al合金材料的应变硬化指数,随着应变的增加,复合材料的应变硬化指数迅速下降,以至低于基体合金的应变硬化指数.
参考文献
| [1] | A.Marchand,J.Dubby,T.A Christman,S.Surresh,Eng.Fract.Mech.,30,295(1998) |
| [2] | S.Yadav,D.R.Chichili,K.T.Ramesh,Acta Metall.Mater.,43,4453(1995) |
| [3] | S.I.Hong,G.T.Gray III and J.J.Lewandowski,Acta Metall.Mater.,41,2337(1993) |
| [4] | J.Harding,M.Taya,B.Derby,S.Pickard,in: edited by W.C.Harigan,J.Strife,A.K.Dhingra,Proceedings.of the 6th International Symposium on Composite Materials,(Amsterdam,Elsevier,1987) p.2.224 |
| [5] | U.S.Lindholm,J.Mech.Phys.Solids,12,317(1964) |
| [6] | M.Guden,I.W.Hall,Mater.Sci.Eng.,242A,141(1998) |
| [7] | FENG Dnan(冯端编著),Mechanical Properties of Metals,in:Metal Physics(金属物理学),Vo1.3,Science and Technology Publisher,Beijing,1999,p.249 |
| [8] | M.F.Ashby,Phils.Mag.,14A,1157(1984) |
| [9] | R.J.Arsenault,Mater.Sci.Eng.,64A,171(1984) |
| [10] | QIAN Lihe(钱立和),WANG Zhongguang(王中光),H.Toda,T.Kobayashi,Chin.J.Mater.Res.(材料研究学报),16(3),289(2002) |
| [11] | W.Tong,P.J.Clifton,S.Huang,J.Mech.Phys.Solids,40,1251(1992) |
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