金属学报  1998, Vol. 34 Issue (8): 785-792

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Al-Mn合金中粒子促进形核及初期再结晶织构 Ⅰ.粒子周围的形变区及粒子促进形核

杨平;O.Engler

德国亚琛工业大学金属研究所;Kopernikusstr.14;D—52056;Aachen;Germany

PARTICLE STIMULATED NUCLEATION AND THE FORMATION OF RECRYSTALLIZATION TEXTURE IN Al-Mn ALLOY CONTAINING PARTICLES Ⅰ. Deformation Zones Around Particles and Particle Stimulated Nucleation

YANG Ping; O.ENGLER(Institute of Metal Science and Metal Physics; Aachen University of Technology; Kopernikusstr. 14; D-52056;Aachen; Germany) Now: School of Materials Science and Engineering; University of Science and Technology Beijing; Beijing;100083 Now: Los Alamos National Laboratory; Center for Materials Science; K765; Los Alamos; NM87545; USACorrespondent: YANG Ping; Tel. (010)623s3Js6; Fax: (010)62332336

杨平;O.Engler. Al-Mn合金中粒子促进形核及初期再结晶织构 Ⅰ.粒子周围的形变区及粒子促进形核[J]. 金属学报, 1998, 34(8): 785-792.
, . PARTICLE STIMULATED NUCLEATION AND THE FORMATION OF RECRYSTALLIZATION TEXTURE IN Al-Mn ALLOY CONTAINING PARTICLES Ⅰ. Deformation Zones Around Particles and Particle Stimulated Nucleation[J]. Acta Metall Sin, 1998, 34(8): 785-792.

摘要 参考文献 相关文章 Metrics 全文: PDF(2090 KB)   摘要: 利用SEM中的背散射电子衍射技术研究了Al—1．3Mn质量分数，％）合金中不同形变取向基体中粒子周围亚晶以及再结晶初期相应的粒子促进形核晶粒的取向分布，并将结果与单晶中的情形进行了比较结果表明，多晶中各形变取向基体中粒子周围亚晶转动的规律及粒子促进形核晶粒的取向与同取向单晶中的情况相同，并非是随机分布的．文章的第二部分将分析粒子与其它形核地点（晶界、立方带）的交互作用以及再结晶织构的形成 关键词 ： Al—Mn合金,  粒子促进形核,  再结晶织构,  背散射电子衍射     Abstract：The rotations of subgrains around particles in deformed matrices of different rolling orientations and their nucleation at the early stages of recrystallization were studied by means of electron back scattering diffraction (EBSD) technique in an SEM and were compared with those in single crystals of similar orientations. Results show that the subgrain rotations around particles within deformed matrices and the orientations of particle stimulated nucleation grains are not random, but singular to those in the similarly oriented single crystals. The second part of this work will deal with the interaction of particles with other nucleation sites (i.e. grain boundaries and cube bands) and the formation of recrystallization texture. Key words： Al-Mn alloy    particle stimulated nucleation    recrystallization texture    EBSD 收稿日期: 1998-08-18      基金资助:国家教委留学回国人员启动基金!97－832 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 杨平 O.Engler 44.8K 链接本文: https://www.ams.org.cn/CN/      或      https://www.ams.org.cn/CN/Y1998/V34/I8/785 1 Bleck W, Bunge H J. Acta Metall, 1981; 29: 1401 2 rsund R, Nes E. Scripta Metall, 1988; 22: 665 3 Juul Jensen D, Hansen N, Humpherys F J. Acta Metall, 1985; 33: 2155 4 Weiland H, Rouns T N, Liu J. Z Metallkd, 1994; 85. 592 5 Humphreys F J, Ferry M, Johnson C, Pailard P. In: Hansen N et al eds., 16th Ris Inter Sgm Ris NationalLab, Denmark, 1995: 87 6 Johnson C P, Humphreys F J. In: Liang Z et al eds., ICOTOM- 11. X'ian, China, 1996: 1263 7 Engler O. Doctoral Thesis, RWTH Aachen, Germany, 1990 8 Kong X W. Doctoral Thesls, RWTH Aachen, Germany, 1992 9 Ardakani M G, Humphreys F J. Acta Metall Mater, 1994; 42: 763 10 Ferry M, Humphreys F J. Acta Maten 1996; 44: 3089 11 Humpherys P J, Kalu P N. Acta Metall Maten 1990; 38: 917 12 Habiby F, Humphreys F J. Textures Mcrostruct, 1996; 20: 125 13 Dingley D J. Scan Electron Mcroscopy, 1987; 11: 569 14 Engler O, Escher C, Gottstein G. Textures Mcrostruct, 1993; 26-27: 337 15 杨平, Engler O. 金属学报, 1998; 34: 793(Yang P, Engler O. Acta Metall Sin, 1998; 34: 793) 16 Engler O, Yang P, Kong X. Acta Mater, 1996; 44: 3349 17 Hirsch J, Burmeister G, Hoenen L, Lticke K. In: Bunge H J ed., Eperiment Technigues of Texture Analysis.1986: 63 18 Bunge H J. Quantitative Texture Analpois. D G M - Informationsgesellschaft, Oberursel , 1981 19 Engler O, Gottstein G. Steel Res, 1992; 63. 413 20 Engler O, Gottstein G, Pospiech J, Jura J. ICOTOM- 10, Materiais Sciences Forum, 1994; 157-162: 259-274 21 Wagner P. Doctoral Thesis, RWTH Aachen, Germany 1995 22 Duggan B J, Lilcke K, Klhoff G D, Lee C S. Acta Metall Mater, 1993; 41: 1921 23 Engler O, Escher C, Gottstein G. Materiais Science Forum, 1993; 113-115: 127-132a [1] 常松涛, 张芳, 沙玉辉, 左良. 偏析干预下体心立方金属再结晶织构竞争[J]. 金属学报, 2023, 59(8): 1065-1074. [2] 付全,沙玉辉,和正华,雷蕃,张芳,左良. Fe81Ga19二元合金薄板的再结晶织构与磁致伸缩性能[J]. 金属学报, 2017, 53(1): 90-96. [3] 张艳,郭明星,邢辉,王斐,汪小锋,张济山,庄林忠. 不同热加工工艺对Al-Mg-Si-Cu合金板材力学性能和组织的影响*[J]. 金属学报, 2015, 51(12): 1425-1434. [4] 孟杨 张文征. 两种位向关系的描述方法的转换及其应用[J]. 金属学报, 2010, 46(6): 647-656. [5] 赵骧; 何长树; 徐俊; 左良 . 电场退火对IF深冲钢板塑性应变比(r值)的影响[J]. 金属学报, 2006, 42(8): 827-829 . [6] 邓运来; 张新明; 唐建国; 刘瑛; 陈志永; 周卓平 . 多晶纯铝轧制变形晶粒局部取向的演变[J]. 金属学报, 2005, 41(5): 477-482 . [7] 胡卓超; 赵骧; 左良 . 电场退火对08Al深冲钢板再结晶织构的影响[J]. 金属学报, 2003, 39(2): 213-216 . [8] 王轶农; 武保林 . LY12铝合金的再结晶织构、晶界特征分布及抗腐蚀性能[J]. 金属学报, 2000, 36(10): 1085-1088 . [9] 杨平;O.Enler. Al—Mn合金中粒子促进形核及初期再结晶织构 Ⅱ.粒子与其它形核位置的交互作用及初期再结晶织构[J]. 金属学报, 1998, 34(8): 793-801. [10] 赵骧. 高纯超低碳深冲钢板的固溶碳含量对再结晶γ织构的影响[J]. 金属学报, 1995, 31(18): 262-265. [11] 刘燕声;赵骧;梁志德. 工业纯铜的异步冷轧及再结晶织构研究[J]. 金属学报, 1990, 26(3): 126-130. [12] 张玉梅;姜文辉. 立方取向50%Ni-Fe合金的二次再结晶织构的测定[J]. 金属学报, 1988, 24(3): 217-220. Viewed Full text Abstract Cited   Shared      Discussed