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Moving Interfaces in Crystalline Solids / edited by Franz Dieter Fischer.

Por: Colaborador(es): Tipo de material: TextoTextoSeries CISM International Centre for Mechanical Sciences, Courses and Lectures ; 453Editor: Vienna : Springer Vienna, 2005Descripción: vii, 256 páginas recurso en líneaTipo de contenido:
  • texto
Tipo de medio:
  • computadora
Tipo de portador:
  • recurso en línea
ISBN:
  • 9783211274040
Formatos físicos adicionales: Edición impresa:: Sin títuloClasificación LoC:
  • TA405-409.3
Recursos en línea:
Contenidos:
Application of Configurational Mechanics to Elastic Solids with Defects and Cracks -- Phase Separation in Binary Alloys - Modeling Approaches -- Utilization of the thermodynamic extremal principle for modelling in material science -- Thermodynamics and Kinetics of Phase and Twin Boundaries -- Moving Grain Boundaries During Hot Deformation of Metals: Dynamic Recrystallization.
Resumen: Moving Interfaces in Solids are typically phase boundaries and grain or subgrain boundaries. Continuum thermodynamics and continuum mechanics are applied to explain the motion process. Related numerical and experimental concepts are dealt with. Experts from material physics and mechanics bridge the gap between these fields. The reader is offered a common view of interface mtion in a unique representation. Examples are presented for various material systems.
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Application of Configurational Mechanics to Elastic Solids with Defects and Cracks -- Phase Separation in Binary Alloys - Modeling Approaches -- Utilization of the thermodynamic extremal principle for modelling in material science -- Thermodynamics and Kinetics of Phase and Twin Boundaries -- Moving Grain Boundaries During Hot Deformation of Metals: Dynamic Recrystallization.

Moving Interfaces in Solids are typically phase boundaries and grain or subgrain boundaries. Continuum thermodynamics and continuum mechanics are applied to explain the motion process. Related numerical and experimental concepts are dealt with. Experts from material physics and mechanics bridge the gap between these fields. The reader is offered a common view of interface mtion in a unique representation. Examples are presented for various material systems.

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