Nonlinear solid mechanics deals with nonlinear constitutive equations for physical objects such as rubber, metal, ceramics, wood, living tissues etc. The continuum approach allows the explanation of physical phenomena without detailed knowledge of their internal microstructure. Providing a modern and comprehensive coverage of continuum mechanics, this volume includes information on "variational principles" - significant, as this is the only method by which such material is actually utilized in engineering practice. It covers a combination of subjects useful to postgraduates in mechanics and numerical methods.
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With a modern, comprehensive approach directed towards computational mechanics, this book covers a unique combination of subjects at present unavailable in any other text. It includes vital information on ?variational principles? constituting the cornerstone of the finite element method. In fact this is the only method by which Nonlinear Solid Mechanics is utilized in engineering practice. The book opens with a fundamental chapter on vectors and tensors. The following chapters are based on nonlinear continuum mechanics - an inevitable prerequisite for computational mechanicians. In addition, continuum field theory (applied to a representative sample of hyperelastic materials currently used in nonlinear computations such as incompressible and compressible materials) is presented, as are transversely isotropic materials, composite materials, viscoelastic materials and hyperelastic materials with isotropic damage. Another central chapter is devoted to the thermodynamics of materials, covering both finite thermoelasticity and finite thermoviscoelasticity. Also included are:
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