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Electromagnetism. --- Electrical engineering --- Electromagnétisme --- Génie électrique --- Mathematics --- Mathématiques --- Electromagnetism --- Electric engineering --- Mathematical models --- Mathematical models. --- Electromagnétisme --- Génie électrique --- Mathématiques --- Electric engineering - Mathematical models
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This is a work in four parts, dealing with the mechanics and thermodynamics of materials with memory, including properties of the dynamical equations which describe their evolution in time under varying loads. The first part is an introduction to Continuum Mechanics with sections dealing with classical Fluid Mechanics and Elasticity, linear and non-linear. The second part is devoted to Continuum Thermodynamics, which is used to derive constitutive equations of materials with memory, including viscoelastic solids, fluids, heat conductors and some examples of non-simple materials. In part three, free energies for materials with linear memory constitutive relations are comprehensively explored. The new concept of a minimal state is also introduced. Formulae derived over the last decade for the minimum and related free energies are discussed in depth. Also, a new single integral free energy which is a functional of the minimal state is analyzed in detail. Finally, free energies for examples of non-simple materials are considered. In the final part, existence, uniqueness and stability results are presented for the integrodifferential equations describing the dynamical evolution of viscoelastic materials. A new approach to these topics, based on the use of minimal states rather than histories, is discussed in detail. There are also chapters on the controllability of thermoelastic systems with memory, the Saint-Venant problem for viscoelastic materials and on the theory of inverse problems.
Continuum mechanics. --- Thermodynamics. --- Thermodynamics --- Smart materials --- Continuum mechanics --- Mechanical Engineering --- Physics --- Engineering & Applied Sciences --- Physical Sciences & Mathematics --- Mechanical Engineering - General --- Applied Physics --- Mathematical models --- Mathematical models. --- Mechanics of continua --- Adaptive materials --- Intelligent materials --- Sense-able materials --- Mathematics. --- Mathematical physics. --- Mechanics. --- Materials science. --- Mathematical Applications in the Physical Sciences. --- Characterization and Evaluation of Materials. --- Continuum Mechanics and Mechanics of Materials. --- Elasticity --- Mechanics, Analytic --- Field theory (Physics) --- Materials
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Termodinàmica --- Materials intel·ligents --- Models matemàtics --- Mecànica dels medis continus --- Mecànica contínua --- Mecànica del continu --- Elasticitat --- Mecànica analítica --- Acústica --- Mecànica de fluids --- Sòlids elàstics --- Termoelasticitat --- Viscoelasticitat --- Teoria de camps (Física) --- Models (Matemàtica) --- Models experimentals --- Models teòrics --- Mètodes de simulació --- Anàlisi de sistemes --- Mètode de Montecarlo --- Modelització multiescala --- Models economètrics --- Models lineals (Estadística) --- Models multinivell (Estadística) --- Models no lineals (Estadística) --- Programació (Ordinadors) --- Simulació per ordinador --- Teoria de màquines --- Models biològics --- Materials adaptables --- Materials --- Termologia --- Dinàmica --- Física --- Mecànica --- Bombes de calor --- Dinàmica de gasos --- Entalpia --- Entropia --- Mecànica estadística --- Processos irreversibles --- Radiació del cos negre --- Segon principi de la termodinàmica --- Termodinàmica atmosfèrica --- Termodinàmica del desequilibri --- Termoquímica --- Transferència de massa --- Anàlisi tèrmica --- Calor --- Fred --- Màquines tèrmiques --- Motors tèrmics --- Teoria quàntica --- Thermodynamics --- Mathematical models.
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Classical mechanics. Field theory --- Fluid mechanics --- Materials sciences --- thermodynamica --- materiaalkennis --- mechanica
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This is a work in four parts, dealing with the mechanics and thermodynamics of materials with memory, including properties of the dynamical equations which describe their evolution in time under varying loads. The first part is an introduction to Continuum Mechanics with sections dealing with classical Fluid Mechanics and Elasticity, linear and non-linear. The second part is devoted to Continuum Thermodynamics, which is used to derive constitutive equations of materials with memory, including viscoelastic solids, fluids, heat conductors and some examples of non-simple materials. In part three, free energies for materials with linear memory constitutive relations are comprehensively explored. The new concept of a minimal state is also introduced. Formulae derived over the last decade for the minimum and related free energies are discussed in depth. Also, a new single integral free energy which is a functional of the minimal state is analyzed in detail. Finally, free energies for examples of non-simple materials are considered. In the final part, existence, uniqueness and stability results are presented for the integrodifferential equations describing the dynamical evolution of viscoelastic materials. A new approach to these topics, based on the use of minimal states rather than histories, is discussed in detail. There are also chapters on the controllability of thermoelastic systems with memory, the Saint-Venant problem for viscoelastic materials and on the theory of inverse problems.
Classical mechanics. Field theory --- Fluid mechanics --- Materials sciences --- thermodynamica --- materiaalkennis --- mechanica
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Mathematics --- Classical mechanics. Field theory --- Solid state physics --- Applied physical engineering --- toegepaste wiskunde --- toegepaste mechanica --- wiskunde --- mechanica
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This monograph deals with the mechanics and thermodynamics of materials with memory, including properties of the dynamical equations that describe their evolution in time under varying loads. A work in four parts, the first is an introduction to continuum mechanics, including classical fluid mechanics, linear and non-linear elasticity. The second part considers continuum thermodynamics and its use to derive constitutive equations of materials with memory, including viscoelastic solids, fluids, heat conductors and some examples of non-simple materials. In the third part, free energies for materials with linear memory constitutive relations are discussed. The concept of a minimal state is introduced. Explicit formulae are presented for the minimum and related free energies. The final part deals with existence, uniqueness, and stability results for the integrodifferential equations describing the dynamical evolution of viscoelastic materials, including a new approach based on minimal states rather than histories. There are also chapters on the controllability of thermoelastic systems with memory, the Saint-Venant problem for viscoelastic materials and on the theory of inverse problems. The second edition includes a new chapter on thermoelectromagnetism as well as recent findings on minimal states and free energies. It considers the case of minimum free energies for non-simple materials and dielectrics, together with an introduction to fractional derivative models.
Mathematics --- Classical mechanics. Field theory --- Solid state physics --- Applied physical engineering --- toegepaste wiskunde --- toegepaste mechanica --- wiskunde --- mechanica
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