caa a22 4500 477122167 CHVBK 20180405111639.0 cr unu---uuuuu 170330e19960601xx s 000 0 eng 10.1007/BF03026086 doi (NATIONALLICENCE)springer-10.1007/BF03026086 Lee Dong School of Materials Science and Engineering, Seoul National University, 151-742, Seoul, Korea aut Maximum energy release theory for recrystallization textures [Elektronische Daten] [Dong Lee] In the maximum energy release theory for the interpretation of recrystallization textures, the most important driving force for recrystallization is assumed to be the stored energy due to dislocations. The arrangement of dislocations can be approximated by the edge dislocation arrangement which is determined from the deformation mode and texture, and in turn enable us to determine the absolute maximum principal stress direction. The maximum stress direction becomes parallel to the minimum elastic modulus direction on recrystallization, whereby energy release of the system can be maximized. The theory can explain recrystallization textures from electrodeposits, axisymmetrically deformed fcc metals, plane strain compressed fcc metals and aluminum single crystal, and cold rolled bcc iron alloy sheets. Springer, 1996 Metals and Materials The Korean Institute of Metals and Materials 2/3(1996-06-01), 121-131 1598-9623 2:3<121 1996 2 12540 https://doi.org/10.1007/BF03026086 text/html Onlinezugriff via DOI 1 research-article jats NATIONALLICENCE 856 40 https://doi.org/10.1007/BF03026086 text/html Onlinezugriff via DOI NATIONALLICENCE 100 1- Lee Dong School of Materials Science and Engineering, Seoul National University, 151-742, Seoul, Korea aut NATIONALLICENCE 773 0- Metals and Materials The Korean Institute of Metals and Materials 2/3(1996-06-01), 121-131 1598-9623 2:3<121 1996 2 12540 Metadata rights reserved Springer special CC-BY-NC licence nationallicence BK010053 XK010053 XK010000 NATIONALLICENCE NATIONALLICENCE NL-springer