Phase Change in Mechanics

Predictive theories of phenomena involving phase change with applications in engineering are investigated in this volume, e.g. solid-liquid phase change, volume and surface damage, and phase change involving temperature discontinuities. Many other phase change phenomena such as solid-solid phase cha...

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Main Author: Frémond, Michel
Corporate Author: SpringerLink (Online service)
Format: eBook
Language:English
Published: Berlin, Heidelberg Springer Berlin Heidelberg 2012, 2012
Edition:1st ed. 2012
Series:Lecture Notes of the Unione Matematica Italiana
Subjects:
Online Access:
Collection: Springer eBooks 2005- - Collection details see MPG.ReNa
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245 0 0 |a Phase Change in Mechanics  |h Elektronische Ressource  |c by Michel Frémond 
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505 0 |a Warm Water in Contact with Cold Ice -- 10 Phase Change and Collisions -- 11 Collisions of Deformable Bodies and Phase Change -- 12 Phase Change Depending on a State Quantity: Liquid-vapor Phase Change -- 13 Clouds: Mixture of Air, Vapor and Liquid Water -- 14 Conclusion 
653 |a Mechanics, Applied 
653 |a Mathematical Modeling and Industrial Mathematics 
653 |a Solid Mechanics 
653 |a Atmospheric Sciences 
653 |a Structural Materials 
653 |a Materials 
653 |a Atmospheric Protection/Air Quality Control/Air Pollution 
653 |a Environmental protection 
653 |a Phase Transitions and Multiphase Systems 
653 |a Mechanics 
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520 |a Predictive theories of phenomena involving phase change with applications in engineering are investigated in this volume, e.g. solid-liquid phase change, volume and surface damage, and phase change involving temperature discontinuities. Many other phase change phenomena such as solid-solid phase change in shape memory alloys and vapor-liquid phase change are also explored. Modeling is based on continuum thermo-mechanics. This involves a renewed principle of virtual power introducing the power of the microscopic motions responsible for phase change. This improvement yields a new equation of motion related to microscopic motions, beyond the classical equation of motion for macroscopic motions. The new theory sensibly improves the phase change modeling. For example, when warm rain falls on frozen soil, the dangerous black ice phenomenon can be comprehensively predicted. In addition, novel equations predict the evolution of clouds, which are themselves a mixture of air, liquid water and vapor