Abstract
This Symposium, and hence this proceedings volume, is concerned with the mechanisms that control recrystallization of deformed metals and alloys. Central themes are the fundamental microstructural, orientational, and kinetic aspects of the recrystallization process; especially as they relate to the nature of the deformed state, to nucleation and growth of recrystallizing grains, and to models based on experimental observations. In recent years, significant progress has been made using a plethora of advanced techniques to characterize the morphology and local orientations in deformed metals and alloys. Thus, a key topic of the Symposium is enhanced insight into the characteristics of the deformation substructure, and into modification of the substructure by recovery, which is essential for understanding fundamental recrystallization mechanisms. Microstructures in highly strained materials will be a topic of special interest. Elucidation of the deformation substructure, and thus the local distribution of stored energy, sets the stage for progress in understanding nucleation of recrystallizing grains. It also provides a basis for new insights into the growth of nuclei, in particular concerning the means by which the deformation substructure is absorbed by and becomes incorporated into the recrystallization interface. Aspects of recrystallization of relevance to this symposium span the range from experimental
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Citation Formats
Hansen, N, Huang, X, Juul Jensen, D, Lauridsen, E M, Leffers, T, Pantleon, W, Sabin, T J, and Wert, J A.
Recrystallization - Fundamental aspects and relations to deformation microstructure.
Denmark: N. p.,
2000.
Web.
Hansen, N, Huang, X, Juul Jensen, D, Lauridsen, E M, Leffers, T, Pantleon, W, Sabin, T J, & Wert, J A.
Recrystallization - Fundamental aspects and relations to deformation microstructure.
Denmark.
Hansen, N, Huang, X, Juul Jensen, D, Lauridsen, E M, Leffers, T, Pantleon, W, Sabin, T J, and Wert, J A.
2000.
"Recrystallization - Fundamental aspects and relations to deformation microstructure."
Denmark.
@misc{etde_20104453,
title = {Recrystallization - Fundamental aspects and relations to deformation microstructure}
author = {Hansen, N, Huang, X, Juul Jensen, D, Lauridsen, E M, Leffers, T, Pantleon, W, Sabin, T J, and Wert, J A}
abstractNote = {This Symposium, and hence this proceedings volume, is concerned with the mechanisms that control recrystallization of deformed metals and alloys. Central themes are the fundamental microstructural, orientational, and kinetic aspects of the recrystallization process; especially as they relate to the nature of the deformed state, to nucleation and growth of recrystallizing grains, and to models based on experimental observations. In recent years, significant progress has been made using a plethora of advanced techniques to characterize the morphology and local orientations in deformed metals and alloys. Thus, a key topic of the Symposium is enhanced insight into the characteristics of the deformation substructure, and into modification of the substructure by recovery, which is essential for understanding fundamental recrystallization mechanisms. Microstructures in highly strained materials will be a topic of special interest. Elucidation of the deformation substructure, and thus the local distribution of stored energy, sets the stage for progress in understanding nucleation of recrystallizing grains. It also provides a basis for new insights into the growth of nuclei, in particular concerning the means by which the deformation substructure is absorbed by and becomes incorporated into the recrystallization interface. Aspects of recrystallization of relevance to this symposium span the range from experimental and model exploration of fundamental mechanisms to methods that link scientific understanding to industrial practice. Models developed by considering the physical mechanisms elucidated by experimental studies will be addressed, as will models that enable industrial exploitation of the fundamental knowledge. Altogether, one of the significant aims of the symposium is to enhance the exploitation of the expanding knowledge of fundatental recrystallization mechanisms in industrial practice. (au)}
place = {Denmark}
year = {2000}
month = {Jul}
}
title = {Recrystallization - Fundamental aspects and relations to deformation microstructure}
author = {Hansen, N, Huang, X, Juul Jensen, D, Lauridsen, E M, Leffers, T, Pantleon, W, Sabin, T J, and Wert, J A}
abstractNote = {This Symposium, and hence this proceedings volume, is concerned with the mechanisms that control recrystallization of deformed metals and alloys. Central themes are the fundamental microstructural, orientational, and kinetic aspects of the recrystallization process; especially as they relate to the nature of the deformed state, to nucleation and growth of recrystallizing grains, and to models based on experimental observations. In recent years, significant progress has been made using a plethora of advanced techniques to characterize the morphology and local orientations in deformed metals and alloys. Thus, a key topic of the Symposium is enhanced insight into the characteristics of the deformation substructure, and into modification of the substructure by recovery, which is essential for understanding fundamental recrystallization mechanisms. Microstructures in highly strained materials will be a topic of special interest. Elucidation of the deformation substructure, and thus the local distribution of stored energy, sets the stage for progress in understanding nucleation of recrystallizing grains. It also provides a basis for new insights into the growth of nuclei, in particular concerning the means by which the deformation substructure is absorbed by and becomes incorporated into the recrystallization interface. Aspects of recrystallization of relevance to this symposium span the range from experimental and model exploration of fundamental mechanisms to methods that link scientific understanding to industrial practice. Models developed by considering the physical mechanisms elucidated by experimental studies will be addressed, as will models that enable industrial exploitation of the fundamental knowledge. Altogether, one of the significant aims of the symposium is to enhance the exploitation of the expanding knowledge of fundatental recrystallization mechanisms in industrial practice. (au)}
place = {Denmark}
year = {2000}
month = {Jul}
}