Nonlinear Solid Mechanics: A Continuum Approach for Engineering by Gerhard A. Holzapfel presents unique combination of topics at present unavailable in another text. It includes very important information on 'variational rules' constituting the cornerstone of the finite element method. In actual fact that is the one method by which this book is utilized in engineering practice.
The book opens with a basic chapter on vectors and tensors. The following chapters are based on nonlinear continuum mechanics - an inevitable prerequisite for computational mechanicians. As well as, continuum subject principle (utilized to a representative pattern of hyperelastic materials at present utilized in nonlinear computations comparable to incompressible and compressible materials) is introduced, as are transversely isotropic materials, composite materials, viscoelastic materials and hyperelastic materials with isotropic damage.
Another central chapter is dedicated to the thermodynamics of materials, covering each finite thermoelasticity and finite thermoviscoelasticity. Additionally included are an up-to-date checklist of just about 300 references and a comprehensive index, useful examples and workout routines for the student with chosen matters of statistical and continuum thermodynamics.
Furthermore, the precept of virtual work (in both the material and spatial descriptions) is in contrast with two and three-field variational rules notably designed to seize kinematic constraints corresponding to incompressibility. All of the features combined result in a necessary text for final 12 months undergraduates, postgraduates and researchers in mechanical, civil and aerospace engineering and applied maths and physics.
This book is without doubt one of the greatest texts I have ever read. Every chapter is well organized and the material is offered in a transparent manner that stimulates your curiosity as regards to continuum mechanics.
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