材料研究学报  1989, Vol. 3 Issue (1): 11-19

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现代晶界几何结构理论及其在工程材料中的应用

谢长生;孙培祯

华中理工大学;华中理工大学

MODERN GRAIN BOUNDARY GEOMETRIC STRUCTURE THEORY AND ITS APPLICATION IN ENGINEERING MATERIALS

XIE Changsheng SUN Peizhen (Huazhong University of Science and Technology)

谢长生;孙培祯. 现代晶界几何结构理论及其在工程材料中的应用[J]. 材料研究学报, 1989, 3(1): 11-19.
, . MODERN GRAIN BOUNDARY GEOMETRIC STRUCTURE THEORY AND ITS APPLICATION IN ENGINEERING MATERIALS[J]. Chin J Mater Res, 1989, 3(1): 11-19.

摘要 参考文献 相关文章 Metrics 全文: PDF(851 KB)   摘要: 现代晶界结构理论是70年代以来所发展起来的新理论。它在解释与晶界有关的物理现象(晶界扩散、晶界偏聚和析出、晶界腐蚀、晶界破断)方面有不少十分新颖的结论.本文介绍晶界几何结构理论,着重评述该理论在工程材料中的应用及发展前景,并指出了这种理论在解释晶界能方面所面临的困难。 关键词 ： 晶界结构,  几何结构理论,  晶界结构控制,  工程材料     Abstract：The modern grain boundary structure theory is a new theorywhich has been developing since the 70s of this century.Some new conclu-sions could be obtained by using this theory to interpret physical phenomenaconcerned with grain boundary,such as grain bound Key words： grain boundary structure    geometric structure theory    grain boundary structure control    engineering material 收稿日期: 1989-02-25      服务 把本文推荐给朋友 加入引用管理器 E-mail Alert RSS 作者相关文章 谢长生 孙培祯 44.8K 链接本文: https://www.cjmr.org/CN/      或      https://www.cjmr.org/CN/Y1989/V3/I1/11 1 Gaudig W,Sass S L.Phil Mag,1979;A39(6) :725 2 Sutton A D.Intern Met Rev,1984;29(5) :377 3 Balluffi R W.Interfacial Segregation,ASM Metal Park OH_(44073) ,1976:193 4 OH Y,Vitek V.Acta Metall,1986;34(10) ;1941 5 Wang G J,Vitek V.Acta Metall,1986;34(5) :951 6 Frost H J.Acta Metall,1987;35(2) :519 7 Bollmann W.crystal Lattices Interface Matric(?)s,Switzerland:Bollmann W,1982:116 8 Bollmann W.Crystal Dcfects and Crystal Interface,New York:Springer-Verlag,1970:1 9 Smith D A.Intern Met Rev,1976;205(1) :61 10 Sass S L.Phil Mag,1975;31(1) :31 11 Warrington D H,Bollmann W.Phil Mag,1972;25(5) :1195 12 Brandon D G.Acta Metall,1966;14(11) :1479 13 肖纪美.合金能量学.上海:上海科技出版社,1985:481 14 Fullman R L,Fisher J C.J Appl Phys,1951;22(3) :1350 15 Aust K T.Trans Am Inst Min Engrs,1959;215(5) :820 16 Brandon D G.Acta Metall,1964;12(7) :813 17 Goodhew P J,Smith D A.Scripta Metall,1980;14(1) :59 18 Pond R C.Proc R Soc,1983;A386(3) :95 19 Wolf D.J physique,1985;46(4) :C4-393 20 Sutton A P,Balluffi R W.Acta Metalll,1987;35(9) :2177 21 Pond R C.Grain Boundary Structure and Kinetics,ASM Metal Park,Ohio 44073,1980:13 22 渡边忠雄.日本金属学会会报,1983;22(2) :95 23 Petrson N L.Intern Met Rev,1983;28(2) :65 24 Swiatanicki W A.Acta Metall.1985;33(9) :1643 25 Swiatanicki W A.Acta Metall,1986;34(4) :599 26 Swiatanicki W A.Acta Metall,1986;34(5) :817 27 Vitek V,Wang G J.Surf Sci,1984;144(1) :110 28 Bouchet D.Scripta Metall,1986;20(7) 961 29 Watanable T.Acta Metall,1980;28(3) :455 30 Suzuki S.Scripta Metall,1981;15(10) :1139 31 Lartigue S,Priester L.Acta Metall,1983;31(11) :1809 32 Forest B,Biscond M.Metal Sci,1978;12(4) :202 33 Gronsky R,Furrer P.Metall Trans,1981;12A(1) :121 34 Unwin PNT.Acta Metall,1969;17(11) :1379 35 Bulter E P.Acta Metall,1976;24(4) :343 36 Qian X R,Chou Y T.Phil Mag,1982;A45(6) :1075 37 Erb U.Acta Metall,1982;30(7) :1377 38 Bennett B W.Metall Trans,1987;18A(6) :1117 39 Brosse J B.Scripta Metall,1981;15(6) :619 40 Don J,Majumdar S.Acta Metall,1986;34(5) :961 41 Watanable T.Metall Trans,1983;14A(4) :531 42 Rath B B,Bernstein I M.Metall Trans,1972;2(11) :2845 43 Lim L C,Raj R.Acta Metall,1984;32(7) :1177 44 Belluz R V.Metall Trans,1975;6A(1) :219 45 Sickafus K E,Sass S L.Acta Metall,1987;35(1) :69 [1] 蒋婷慧,刘满平,谢学锋,王俊,吴振杰,刘强,Hans J. Roven. 高压扭转大塑性变形Al–Mg合金中的晶界结构*[J]. 材料研究学报, 2014, 28(5): 371-379. [2] 杜兴蒿; 郭建亭; 周彼德; 熊良钺 . NiAl超塑性变形的正电子寿命研究[J]. 材料研究学报, 2002, 16(6): 623-628. [3] 康雪雅;陶明德;涂铭旌. ZnO压敏陶瓷的晶界结构[J]. 材料研究学报, 1996, 10(3): 301-303. [4] 王桂金;吴宝榕. 相变和晶体缺陷的计算机模拟在合金设计中的应用[J]. 材料研究学报, 1989, 3(2): 97-104. [5] 周自强. 晶界研究的现状和发展[J]. 材料研究学报, 1989, 3(1): 1-10. Viewed Full text Abstract Cited   Shared      Discussed