The evolution of recrystallization textures in plastically deformed face centered cubic metals

被引:0
作者
Dong Nyung Lee
Hyo- Tae Jeong
Hyung- Joon Shin
机构
[1] Division of Materials Science and Engineering,Research Center for Thin Film Fabrication and Crystal Growing of Advanced Materials
[2] Seoul National University,undefined
来源
Metals and Materials | 1998年 / 4卷 / 3期
关键词
recrystallization texture; FCC metals; deformation texture;
D O I
10.1007/BF03187798
中图分类号
学科分类号
摘要
The recrystallization texture of axisymmetrically deformed fcc metals having major <111> + minor <100> fibers and major <100> + minor <111> fibers is the <100> orientation. The evolution of the 100<001> recrystallization texture from the 112<111> deformation texture and near 031<20 1 3> recrystallization texture from plane strain compressed bicrystal 123<412> and the recrystallization texture of axisymmetrically deformed fcc metals have been discussed based on the energy release maximization theory in which the absolute maximum stress direction in deformed state becomes parallel to the minimum Young’s modulus direction after recrystallization.
引用
收藏
页码:391 / 396
页数:5
相关论文
共 50 条
[31]   The effect of precipitation on the evolution of recrystallization textures in an AA 8011 aluminum alloy sheet [J].
Jong-Ho Ryu ;
Yoon-Soo Lee ;
Dong Nyung Lee .
Metals and Materials International, 2001, 7 :251-256
[32]   The effect of precipitation on the evolution of recrystallization textures in an AA 8011 aluminum alloy sheet [J].
Ryu, JH ;
Lee, YS ;
Lee, DN .
METALS AND MATERIALS-KOREA, 2001, 7 (03) :251-256
[33]   On adiabatic shear localization in nanostructured face-centered cubic alloys with different stacking fault energies [J].
Li, Jianguo ;
Li, Yulong ;
Huang, Chongxiang ;
Suo, Tao ;
Wei, Qiuming .
ACTA MATERIALIA, 2017, 141 :163-182
[34]   Molecular dynamics simulation of defect formation in irradiated face centered cubic materials [J].
Sopu, D. ;
Popovici, D. M. ;
Girtu, M. A. .
JOURNAL OF OPTOELECTRONICS AND ADVANCED MATERIALS, 2007, 9 (04) :799-809
[35]   Uncovering all possible dislocation locks in face-centered cubic materials [J].
Bajaj, D. ;
Chen, D. L. .
INTERNATIONAL JOURNAL OF PLASTICITY, 2024, 181
[36]   Orientation dependence of shear banding in face-centered-cubic single crystals [J].
Jia, N. ;
Eisenlohr, P. ;
Roters, F. ;
Raabe, D. ;
Zhao, X. .
ACTA MATERIALIA, 2012, 60 (08) :3415-3434
[37]   Theoretical and experimental grain boundary energies in body-centered cubic metals [J].
Li, Changle ;
Lu, Song ;
Divinski, Sergiy ;
Vitos, Levente .
ACTA MATERIALIA, 2023, 255
[38]   Selenium Adsorption on the (111), (100), (110) and (211) Surfaces of Face-Centered-Cubic Metals: Density Functional Calculations of the Potential Energy Surfaces [J].
Rivera, Rolando L. Albarracin ;
Colon-Ruiz, Yomari L. ;
De La Torre-rosa, Adriana ;
Garcia-Ramos, Andrea I. ;
Garcia-Sanchez, Alondra M. ;
Gierbolini-Ortiz, Lianellys ;
Lopez-Torres, Marialejandra ;
Ortiz-Rodriguez, Nasya ;
Rivera-Rivera, Vanessa A. ;
Santiago-Soler, Sofia C. ;
Siberon-Albertorio, Jerica A. ;
Silva-Burgos, Juliannie N. ;
Torres-Morales, Coralys ;
Santana, Juan A. .
CHEMISTRYSELECT, 2024, 9 (39)
[39]   Towards a universal size-dependent strength of face-centered cubic nanoparticles [J].
Feruz, Yosi ;
Mordehai, Dan .
ACTA MATERIALIA, 2016, 103 :433-441
[40]   Formation of Deformation Textures in Face-Centered-Cubic Materials Studied by In-Situ High-Energy X-Ray Diffraction and Self-Consistent Model [J].
N. Jia ;
Z.H. Nie ;
Y. Ren ;
R. Lin Peng ;
Y.D. Wang ;
X. Zhao .
Metallurgical and Materials Transactions A, 2010, 41 :1246-1254
12345