简述了具有密排六方(hcp)结构镁合金材料各种可能的滑移和孪生系统及其临界切变应力;以镁合金塑性变形机理为主线,分别对单晶和多晶镁合金材料塑性变形行为及微观机理的影响规律,轧制、挤压及不同严重塑性变形模式下镁合金织构的形成机理,形变镁合金材料退火过程中回复与再结晶及镁合金材料在热变形过程中的动态再结晶机理,以及沉淀硬化镁合金塑性变形机理、特别是沉淀相与位错滑移及孪生的交互作用机理等进行了总结与评述.同时,对高成形性镁合金及提高镁合金塑性成形能力的塑性变形机理进行了讨论.
参考文献
| [1] | Agnew S R,Duygulu (O).Int J Plast,2005;21:1161 |
| [2] | Obara T,Yoshinga H,Morozumi S.Acta Metall,1973;21:845 |
| [3] | Stohr J F,Poirier J P.Philos Mag,1972;25:1313 |
| [4] | Yoo M H,Agnew S R,Morris J R,Ho K M.Mater Sci Eng,2001;A319-321:87 |
| [5] | Styczynski A,Hartig C,Bohlen J,Letzig D.Scr Mater,2004;50:943 |
| [6] | Agnew S R,Yoo M H,Tome C N.Acta Mater,2001;49:4277 |
| [7] | Agnew S R,Tom C N,Brown D W,Holden T M,Vogel S C.Scr Mater,2003;48:1003 |
| [8] | Christian J W,Mahajan S.Prog Mater Sci,1995;39:1 |
| [9] | Yoo M.Metall Mater Turns,1981;12A:409 |
| [10] | Nave M D,Barnett M R.Scr Mater,2004;51:881 |
| [11] | Chen Y J,Wang Q D,Roven H J,Liu M P,Karlsen M,Yu Y D,Hjelen J.Scr Mater,2008;58:311 |
| [12] | Jiang J,Godfrey A,Liu W,Liu Q.Scr Mater,2008;58:122 |
| [13] | Jiang J,Godfrey A,Liu Q.Key Eng Mater,2007;353-358:627 |
| [14] | Yang P,Yu Y,Chen L,Mao W.Scr Mater,2004;50:1163 |
| [15] | Barnett M R,Keshavarz Z,Beer A G,Ma X.Acta Mater,2008;56:5 |
| [16] | Kelly E W,Hosford W F.Trans Metall Soc RIME,1968;242:5 |
| [17] | Reed-Hill R E,Robertson W D.Acta Metall,1957;5:728 |
| [18] | Wonsiewicz B C,Backofen W A.Metall Soc AIME,1967;239:1422 |
| [19] | Yi S B,Davies C H J,Brokmeier H G,Bolmaro R E,Kainer K U,Homeyer J.Acta Mater,2006;54:549 |
| [20] | Kleiner S,Uggowitzer P J.Mater Sci Eng,2004;A379:258 |
| [21] | Jiang J,Godfrey A,Liu Q.Mater Sci Technol,2005;21:1417 |
| [22] | Choi S H,Shin E J,Seong B S.Acta Mater,2007;55:4181 |
| [23] | Al-Samman T,Gottstein G.Mater Sci Eng,2008;A488:406 |
| [24] | Yin D L,Wang J T,Liu J Q,Zhao X.J Alloys Compd,2009;478:789 |
| [25] | Jiang J,Godfrey A,Liu W,Liu Q.Mater Sci Eng,2008;A483-484:576 |
| [26] | Yan H,Chen R S,Han E H.Mater Sci Eng,2010;A527:3317 |
| [27] | Jiang L,Jonas J J,Luo A A,Sachdev A K,Godet S.Scr Mater,2006;54:771 |
| [28] | Jiang L,Jonas J J,Mishra R K,Luo A A,Sachdev A K,Godet S.Acta Mater,2007;55:3899 |
| [29] | Barnett M R,Keshavarz Z,Beer A G,Atwell D.Acta Mater,2004;52:5093 |
| [30] | Jain A,Agnew S R.Mater Sci Eng,2007;A462:29 |
| [31] | Al-Samman T,Li X,Chowdhury S G.Mater Sci Eng,2010;A527:3450 |
| [32] | Prasad Y V R K,Rao K P.Mater Sci Eng,2008;A487:316 |
| [33] | Tucker M T,Horstemeyer M F,Gullett P M,El Kadiri H,Whittington W R.Scr Mater,2009;60:182 |
| [34] | Wu L,Jain A,Brown D W,Stoics,G M,Agnew S R,Clausen B,Fielden D E,Law P K.Acta Mater,2008;56:688 |
| [35] | Agnew S R,Duygulu (O).Int J Plast,2005;21:1161 |
| [36] | Zeng R C,Han E H,Ke W,Dietzel W,Kainer K U,Atrens A.Int J Fatigue,2010;32:411 |
| [37] | Barnett M R.Mater Sci Eng,2007;A464:1 |
| [38] | Barnett M R,Jacob S,Gerard B F,Mullins J G.Scr Mater,2008;59:1035 |
| [39] | Walde T,Riedel H.Mater Sci Eng,2007;A443:277 |
| [40] | Pérez-Prado M T,del Valle J A,Contreras J M,Ruano O A.Scr Mater,2004;50:661 |
| [41] | del Valle J A,Pérez-Prado M T,Ruano O A.Mater Sci Eng,2003;A355:68 |
| [42] | Fatemi-Varzaneh S M,Zarei-Hanzaki A,Haghshenas M.J Alloys Compd,2009;475:126 |
| [43] | Chang L L,Shang E F,Wang Y N,Zhao X,Qi M.Mater Charact,2009;60:487 |
| [44] | Koh H,Sakai T,Utsunomiya H,Minamiguchi S.Mater Trans,2007;48:2023 |
| [45] | Li H,Hsu E,Szpunar J,Utsunomiya H,Sakai T.J Mater Sci,2008;43:7148 |
| [46] | Utsunomiya H,Sakai T,Minamiguchi S,Koh H.HighSpeed Heavy Rolling of Magnesium.Alloy Sheets,Minerals.Warrendale:Metals&Materials Soc,2006:201 |
| [47] | Watanabe Y,Sakai T,Utsunomiya H.J Iron Steel Res Int,2008;15:712 |
| [48] | Kim W J,Park J D,Wang J Y,Yoon W S.Scr Mater,2007;57:755 |
| [49] | Kim W J,Lee J B,Kim W Y,Jeong H T,Jeong H G.Scr Mater,2007;56:309 |
| [50] | Kim W J,Jeong H G,Jeong H T.Scr Mater,2009;61:1040 |
| [51] | Huang X,Suzuki K,Watazu A,Shigematsu I,Saito N.Scr Mater,2009;60:964 |
| [52] | Chino Y,Sassa K,Kamiya A,Mabuchi M.In:5th Int Conf Processing and Manufacturing of Advanced Matei ials.Vancouver,Canada:Trans Tech Publications Ltd,2007:1615 |
| [53] | Chen X P,Shang D,Xiao R,Huang G J,Liu Q.Trans Nonferr Metal Soc,2010;20:589 |
| [54] | Lim H K,Lee J Y,Kim D H,Kim W T,Lee J S,Kim D H.Mater Sci Eng,2009;A506:63 |
| [55] | Shahzad M,Wagner L.Mater Sci Eng,2009;A506:141 |
| [56] | Chang L L,Wang Y N,Zhao X,Huang J C.Mater Sci Eng,2008;A496:512 |
| [57] | Liang S J,Liu Z Y,Wang E D.Mater Lett,2008;62:4009 |
| [58] | Mishra R K,Gupta A K,Rao P R,Sachdev A K,Kumar A M,Luo A A.Scr Mater,2008;59:562 |
| [59] | Park S S,Tang W N,You B S.Mater Lett,2010;64:31 |
| [60] | Stanford N,Barnett M R.Mater Sci Eng,2008;A496:399 |
| [61] | Park S S,You B S,Yoon D J.J Mater Process Technol,2009;209:5940 |
| [62] | Uematsu Y,Tokaji K,Kamakura M,Uchida K,Shibata H,Bekku N.Mater Sci Eng,2006;A434:131 |
| [63] | Azeem M A,Tewari A,Mishra S,Gollapudi S,Ramamurty U.Acta Mater,2010;58:1495 |
| [64] | Bohlen J,Yi S B,Swiostek J,Letzig D,Brokmeier H G,Kainer K U.Scr Mater,2005;53:259 |
| [65] | Mabuchi M,Iwasaki H,Yanase K,Higashi K.Scr Mater,1997;36:681 |
| [66] | Mabuchi M,Ameyama K,Iwasaki H,Higashi K.Acta Mater,1999;47:2047 |
| [67] | Mukai T,Yamanoi M,Watanabe H,Higashi K.Scr Mater,2001;45:89 |
| [68] | Kim W J,An C W,Kim Y S,Hong S 1.Scr Mater,2002;47:39 |
| [69] | Kim W J,Hong S 1,Kim Y S,Min S H,Jeong H T,Lee J D.Acta Mater,2003;51:3293 |
| [70] | Pérez-Prado M T,del Valle J A,Ruano O A.Scr Mater,2004;51:1093 |
| [71] | Pérez-Prado M T,del Valle J A,Ruano O A.Mater Lett,2005;59:3299 |
| [72] | del Valle J A,Pérez-Prado M T,Ruano O A.Mater Sci Eng,2005;A410-411:353 |
| [73] | Tan J C,Tan M J.Mater Sci Eng,2003;A339:124 |
| [74] | Fatemi-Varzaneh S M,Zarei-Hanzaki A,Beladi H.Mater Sci Eng,2007;A456:52 |
| [75] | Sitdikov O,Kaibyshev R.Mater Trans,2001;42:1928 |
| [76] | Jin Q L,Shim S Y,Lim S G.Scr Mater,2006;55:843 |
| [77] | Al-Samman T,Gottstein G.Mater Sci Eng,2008;A490:411 |
| [78] | Xu S W,Kamado S,Honma T.Scr Mater,2010;63:293 |
| [79] | del Valle J A,Ruano O A.Mater Sci Eng,2008;A487:473 |
| [80] | Galiyev A,Kaibyshev R,Gottstein G.Acta Mater,2001;49:1199 |
| [81] | Zhang Y,Zeng X,Lu C,Ding W.Mater Sci Eng,2006;A428:91 |
| [82] | Barnett M R.J Light Met,2001;1:167 |
| [83] | Yang X Y,Ji Z S,Miura H,Sakai T.Trans Nonferr Met Soc,2009;19:55 |
| [84] | Xin R L,Wang B S,Chen X P,Huang G J,Liu Q.Sci China,2009;52E:176 |
| [85] | Wang Q,Li D,Blandin J J,Su6ry M,Donnadieu P,Ding W.Mater Sci Eng,2009;A516:189 |
| [86] | Li X,Yang P,Wang L N,Meng L,Cui F.Mater Sci Eng,2009;A517:160 |
| [87] | J(a)ger A,Lukác P,G(a)rtnerová V,Haloda J,Dopita M.Mater Sci Eng,2006;A432:20 |
| [88] | Pérez-Prado M T,Ruano O A.Scr Mater,2002;46:149 |
| [89] | Pérez-Prado M T,Ruano O A.Scr Mater,2003;48:59 |
| [90] | Yang X Y,Zhu Y K,Miura H,Sakai T.Trans Nonferr Met Soc,2010;20:1269 |
| [91] | Nie J F.Scr Mater,2003;48:1009 |
| [92] | Hutchinson C,Nie J,Gorsse S.Metall Mater Trans,2005;36A:2093 |
| [93] | Zhang M X,Kelly P M.Scr Mater,2003;48:379 |
| [94] | Matsuda M,Ii S,Kawamura Y,Ikuhara Y,Nishida M.Mater Sci Eng,2004;A386:447 |
| [95] | Hantzsche K,Bohlen J,Wendt J,Kainer K U,Yi S B,Letzig D.Scr Mater,2010;63:725 |
| [96] | Ball E A,Prangnell P B.Scr Metall Mater,1994;31:111 |
| [97] | Mackenzie L W F,Davis B,Humphreys F J,Lorimer G W.Mater Sci Technol,2007;23:1173 |
| [98] | Senn J W,Agnew S R.Magnesium Technology 2008.New Orleans:TMS,2008:153 |
| [99] | Senn J W,Agnew S R.Proc Magnesium Technology in the Global Age.Montreal:Canadian Institute of Mining,Metallurgy and Petroleum,2006:115 |
| [100] | Mackenzie L W F,Pekguleryuz M O.Scr Mater,2008;59:665 |
| [101] | Cottam R,Robson J,Lorimer G,Davis B.Mater Sci Eng,2008;A485:375 |
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%