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Internal Variables in Therm...

Internal Variables in Thermoelasticity

Berezovski, Arkadi

Springer International Publishing 2017

This book describes an effective method for modeling advanced materials like polymers, composite materials and biomaterials, which are, as a rule, inhomogeneous. The thermoelastic theory with internal variables presented here provides a general framework for predicting a material's reaction to external loading. The basic physical principles provide the primary theoretical information, including the evolution equations of the internal variables. The cornerstones of this framework are the material representation of continuum mechanics, a weak nonlocality, a non-zero extra entropy flux, and a consecutive employment of the dissipation inequality. Examples of thermoelastic phenomena are provided, accompanied by detailed procedures demonstrating how to simulate them

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monografia Rebiun18982603 https://catalogo.rebiun.org/rebiun/record/Rebiun18982603 cr c 170505s2017 gw o 001 0 eng d 9783319569345 978-3-319-56934-5 10.1007/978-3-319-56934-5 doi UR0416287 CBUC 991049429809706706 UPVA 996900699203706 UAM 991007839524604211 UCAR 991007896618704213 UAL spa UAL rdc 620.1 23 Berezovski, Arkadi Internal Variables in Thermoelasticity by Arkadi Berezovski, Peter Ván Cham Springer International Publishing Springer 2017 Cham Cham Springer International Publishing Springer 1 recurso en línea 1 recurso en línea VIII, 220 p. 37 il VIII, 220 p. 37 il Texto (visual) isbdcontent electrónico isbdmedia Springer eBooks Solid Mechanics and Its Applications 0925-0042 243 This book describes an effective method for modeling advanced materials like polymers, composite materials and biomaterials, which are, as a rule, inhomogeneous. The thermoelastic theory with internal variables presented here provides a general framework for predicting a material's reaction to external loading. The basic physical principles provide the primary theoretical information, including the evolution equations of the internal variables. The cornerstones of this framework are the material representation of continuum mechanics, a weak nonlocality, a non-zero extra entropy flux, and a consecutive employment of the dissipation inequality. Examples of thermoelastic phenomena are provided, accompanied by detailed procedures demonstrating how to simulate them Modo de acceso: World Wide Web Engineering Mathematical physics Mathematical models Thermodynamics Heat engineering Heat transfer Mass transfer Continuum mechanics Engineering Continuum Mechanics and Mechanics of Materials Engineering Thermodynamics, Heat and Mass Transfer Classical and Continuum Physics Mathematical Applications in the Physical Sciences Mathematical Modeling and Industrial Mathematics Ingeniería Libros electrónicos Recursos electrónicos Ván, Peter SpringerLink (Servicio en línea)

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monografia Rebiun18982603 https://catalogo.rebiun.org/rebiun/record/Rebiun18982603 cr c 170505s2017 gw o 001 0 eng d 9783319569345 978-3-319-56934-5 10.1007/978-3-319-56934-5 doi UR0416287 CBUC 991049429809706706 UPVA 996900699203706 UAM 991007839524604211 UCAR 991007896618704213 UAL spa UAL rdc 620.1 23 Berezovski, Arkadi Internal Variables in Thermoelasticity by Arkadi Berezovski, Peter Ván Cham Springer International Publishing Springer 2017 Cham Cham Springer International Publishing Springer 1 recurso en línea 1 recurso en línea VIII, 220 p. 37 il VIII, 220 p. 37 il Texto (visual) isbdcontent electrónico isbdmedia Springer eBooks Solid Mechanics and Its Applications 0925-0042 243 This book describes an effective method for modeling advanced materials like polymers, composite materials and biomaterials, which are, as a rule, inhomogeneous. The thermoelastic theory with internal variables presented here provides a general framework for predicting a material's reaction to external loading. The basic physical principles provide the primary theoretical information, including the evolution equations of the internal variables. The cornerstones of this framework are the material representation of continuum mechanics, a weak nonlocality, a non-zero extra entropy flux, and a consecutive employment of the dissipation inequality. Examples of thermoelastic phenomena are provided, accompanied by detailed procedures demonstrating how to simulate them Modo de acceso: World Wide Web Engineering Mathematical physics Mathematical models Thermodynamics Heat engineering Heat transfer Mass transfer Continuum mechanics Engineering Continuum Mechanics and Mechanics of Materials Engineering Thermodynamics, Heat and Mass Transfer Classical and Continuum Physics Mathematical Applications in the Physical Sciences Mathematical Modeling and Industrial Mathematics Ingeniería Libros electrónicos Recursos electrónicos Ván, Peter SpringerLink (Servicio en línea)