对近年来国内外在纳米层状金属材料的强化能力及其尺度与界面效应、塑性形变行为及稳定性等基本规律的研究进展进行了系统的总结,并对纳米层状材料的强化能力与韧化能力进行了深入的探讨.最后,对纳米层状金属材料的强化与韧化能力中的关键科学问题及未来研究进行了展望.
参考文献
[1] | Hall E O.Proc Phys Soc,1951; 64B:747 |
[2] | Petch N J.J Iron Steel Inst,1953; 174:25 |
[3] | Iwahashi Y,Wang J T,Horita Z,Nemoto M,Langdon T G.Scr Mater,1996; 35:143 |
[4] | Valiev R Z,Estrin Y,Horita Z,Langdon T G,Zehetbauer M J,Zhu Y T.JOM,2006; 58(4):33 |
[5] | Zhilyaev A P,Langdon T G.Prog Mater Sci,2008; 53:893 |
[6] | Saito Y,Tsuji N,Utsunomiya H,Sakai T,Hong R G.Scr Mater,1998; 39:1221 |
[7] | Hirth J P,Lothe J.Theory of Dislocations.2nd Ed.,New York:John Wiley & Sons,1982:788 |
[8] | Meyers M A,Chawla K K.Mechanical Behavior of Materials.Cambridge:Cambridge University Press,2009:1 |
[9] | Sevillano J G.In:Cahn R W,Haasen P,Kramer E,eds.,Materials Science and Technology:A Comprehensive Treatment Plastic Deformation and Fracture of Materials.New York:VCH,1993:19 |
[10] | Blum W.TransAm Electrochem Soc,1921; 40:307 |
[11] | Was G S,Foecke T.Thin Solid Films,1996; 286:1 |
[12] | Clemens B M,Kung H,Barnett S A.MRSBull,1999; 24:20 |
[13] | Misra A,Hirth J P,Kung H.Philos Mag,2002; 82A:2935 |
[14] | Zhang G P,Liu Y,Wang W,Tan J.Appl Phys Lett,2006; 88:013105 |
[15] | Mara N A,Bhattacharyya D,Hoagland R G,Misra A.Scr Mater,2008; 58:874 |
[16] | Misra A,Verdier M,Lu Y C,Kung H,Mitchell T E,Nastasi M,Embury J D.ScrMater,1998; 39:555 |
[17] | Wen S P,Zong R L,Zeng F,Gao Y,Pan F.Acta Mater,2007; 55:345 |
[18] | Li Y P,Zhang G P,Wang W,Tan J,Zhu S J.ScrMater,2007; 57:117 |
[19] | McKeown J,Misra A,Kung H,Hoagland R G,Nastasi M.Scr Mater,2002; 46:593 |
[20] | Zhang X,Misra A,Wang H,Shen T D,Nastasi M,Mitchell T E,Hirth J P,Hoagland R G,Embury J D.Acta Mater,2004; 52:995 |
[21] | Yan J W,Zhang G P,Zhu X F,Liu H S,Yan C.Philos Mag,2013;93:434 |
[22] | Misra A,Hirth J P,Hoagland R G.Acta Mater,2005; 53:4817 |
[23] | Armstrong R W.In:Martin J W,ed.,Concise Encyclopedia of the Mechanical Properties of Materials.Oxford:Elsevier,2007:601 |
[24] | Zhu Y T,Liao X Z,Wu X L.Prog Mater Sci,2012; 57:1 |
[25] | Lehoczky S L.JAppl Phys,1978; 49:5479 |
[26] | Zhang X,Misra A,Wang H,Shen T D,Swadener J G,Embury J D,Kung H,Hoagland R G,Nastasi A.J Mater Res,2003; 18:1600 |
[27] | Huang H B,Spaepen E Acta Mater,2000; 48:3261 |
[28] | Lu L,Chen X,Huang X,Lu K.Science,2009; 323:607 |
[29] | Hoagland R G,Kurtz R J,Henager C H.ScrMater,2004; 50:775 |
[30] | Anderson P M,Foecke T,Hazzledine P M.MRS Bull,1999; 24:27 |
[31] | Li Y P,Zhang G P.Acta Mater,2010; 58:3877 |
[32] | Koehler J S.PhysRev,1970; 2B:547 |
[33] | Hoagland R G,Mitchell T E,Hirth J P,Kung H.Philos Mag,2002; 82A:643 |
[34] | Rao S I,Hazzledine P M.Philos Mag,2000; 80A:2011 |
[35] | Zhu X F,Li Y P,Zhang G P,Tan J,Liu Y.Appl Phys Lett,2008;92:161905 |
[36] | Zhu X F,Zhang G P,Yan C,Zhu S J,Sun J.Philos Mag Lett,2010; 90:413 |
[37] | Li Y P,Zhu X F,Tan J,Wu B,Zhang G P.Philos Mag Lett,2009;89:66 |
[38] | Li X Y,Wei Y J,Lu L,Lu K,Gao H J.Nature,2010; 464:877 |
[39] | Tench D M,White J T.JElectrochem Soc,1991; 138:3757 |
[40] | Mara N A,Misra A,Hoagland R G,Sergueeva A V,Tamayo T,Dickerson P,Mukherjee A K.Mater Sci Eng,2008; A493:274 |
[41] | Lewis A C,Eberl C,Hemker K J,Weihs T E JMater Res,2008;23:376 |
[42] | Huang B,Ishihara K N,Shingu P H.JMater Sci Lett,2001; 20:1669 |
[43] | Wang Y M,Li J,Hamza A V,Barbee T W.Proc Nat Acad Sci,2007; 104:11155 |
[44] | Zhang J Y,Zhang X,Liu G,Zhang G J,Sun J.Scr Mater,2010;63:101 |
[45] | Donohue A,Spaepen F,Hoagland R G,Misra A.Appl Phys Lett,2007; 91:241905 |
[46] | Kavarana F H,Ravichandran K S,Sahay S S.Scr Mater,2000;42:947 |
[47] | Li Y P,Tan J,Zhang G E Scr Mater,2008; 59:1226 |
[48] | Li Y P,Zhu X F,Tan J,Wu B,Wang W,Zhang G P.J Mater Res,2009; 24:728 |
[49] | Xie J Y,Huang P,Wang F,Li Y,Zhang L F,Xu K W.Integr Ferroelectr,2013; 146:168 |
[50] | Wang D,Kups T,Schawohl J,Schaaf P.J Mater Sci,2012; 23:1077 |
[51] | Wen S P,Zeng F,Pan F,Nie Z R.Mater Sci Eng,2009; A526:166 |
[52] | Bhattacharyya D,Mara N A,Dickerson P,Hoagland R G,Misra A.J Mater Res,2009; 24:1291 |
[53] | Knorr I,Cordero N M,Lilleodden E T,Volkert C A.Acta Mater,2013; 61:4984 |
[54] | Li Y P,Zhu X F,Zhang G P,Tan J,Wang W,Wu B.Philos Mag,2010; 90:3049 |
[55] | Wang F,Huang P,Xu M,Lu T J,Xu K W.Mater Sci Eng,2011;A528:7290 |
[56] | Wen S P,Zong R L,Zeng F,Gao Y,Pan E.JMaterRes,2007; 22:3423 |
[57] | Mara N A,Bhattacharyya D,Hirth J P,Dickerson P,Misra A.Appl Phys Lett,2010; 97:021909 |
[58] | Liu M C,Lee C J,Lai Y H,Huang J C.Thin Solid Films,2010;518:7295 |
[59] | Zhang J Y,Lei S,Liu Y,Niu J J,Chen Y,Liu G,Zhang X,Sun J.Acta Mater,2012; 60:1610 |
[60] | Kim Y,Lee J,Yeom M S,Shin J W,Kim H,Cui Y,Kysar J W,Hone J,Jung Y,Jeon S,Han S M.Nat Commun,2013; 4:2114 |
[61] | Chen I W,Winn E J,Menon M.MaterSciEng,2001; A317:226 |
[62] | Yan J W,Zhu X F,Yang B,Zhang G P.Phys Rev Lett,2013; 110:155502 |
[63] | Lu K,Lu L,Suresh S.Science,2009; 324:349 |
[64] | Fang T H,Li W L,Tao N R,Lu K.Science,2011; 331:1587 |
[65] | Yan F K,Liu G Z,Tao N R,Lu K.Acta Mater,2012; 60:1059 |
[66] | Zhang J Y,Zhang X,Wang R H,Lei S Y,Zhang P,Niu J J,Liu G,Zhang G J,Sun J.Acta Mater,2011; 59:7368 |
[67] | Dayal P,Quadir M Z,Kong C,Savvides N,Hoffman M.Thin SolidFilms,2011; 519:3213 |
[68] | Liu M C,Du X H,Lin I C,Pei H J,Huang J C.Intermetallics,2012; 30:30 |
[69] | Uchic M D,Dimiduk D M,Florando J N,Nix W D.Science,2004; 305:986 |
[70] | Volkert C A,Minor A M.MRSBull,2007; 32:389 |
[71] | Zheng S J,Beyerlein I J,Wang J,Carpenter J S,Han W Z,Mara N A.Acta Mater,2012; 60:5858 |
[72] | Wang J,Misra A,Hoagland R G,Hirth J P.Acta Mater,2012; 60:1503 |
[73] | Zhang B,Tan H F,Yan J W,Zhang M D,Sun X D,Zhang G P.Nanoscale Res Lett,2013; 8:44 |
[74] | Liu H S,Zhang B,Zhang G E Scr Mater,2011; 64:13 |
[75] | Liu H S,Zhang B,Zhang G E Scr Mater,2011; 65:891 |
[76] | Liu H S.PhD Dissertation.Institute of Metal Research,Chinese Academy of Sciences,Shenyang,2012(刘华赛.中国科学院金属研究所博士学位论文,沈阳,2012) |
上一张
下一张
上一张
下一张
计量
- 下载量()
- 访问量()
文章评分
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%