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The elements of continuum biomechanics / Marcelo Epstein.

By: Material type: TextTextPublisher number: EB00066756 | Recorded BooksPublication details: Hoboken, N.J. : John Wiley & Sons Inc., 2012.Description: 1 online resource (xiv, 371 pages) : illustrationsContent type:
  • text
Media type:
  • computer
Carrier type:
  • online resource
ISBN:
  • 9781118360996
  • 1118360990
  • 9781118361016
  • 1118361016
  • 9781118361009
  • 1118361008
Subject(s): Genre/Form: Additional physical formats: Print version:: Elements of continuum biomechanics.DDC classification:
  • 573.7/9343 23
LOC classification:
  • QH513 .E77 2012eb
Online resources:
Contents:
The Elements of Continuum Biomechanics; Contents; Preface; Part I A One-Dimensional Context; Chapter 1 Material Bodies and Kinematics; 1.1 Introduction; 1.2 Continuous versus Discrete; 1.3 Configurations and Deformations; 1.4 The Deformation Gradient; 1.5 Change of Reference Configuration; 1.6 Strain; 1.7 Displacement; 1.8 Motion; 1.9 The Lagrangian and Eulerian Representations of Fields; 1.10 The Material Derivative; 1.11 The Rate of Deformation; 1.12 The Cross Section; Chapter 2 Balance Laws; 2.1 Introduction; 2.2 The Generic Lagrangian Balance Equation; 2.2.1 Extensive Properties.
Summary: An appealing and engaging introduction to Continuum Mechanics in Biosciences This book presents the elements of Continuum Mechanics to people interested in applications to biological systems. It is divided into two parts, the first of which introduces the basic concepts within a strictly one-dimensional spatial context. This policy has been adopted so as to allow the newcomer to Continuum Mechanics to appreciate how the theory can be applied to important issues in Biomechanics from the very beginning. These include mechanical and thermodynamical balance, materials with fading memory and chemically reacting mixtures. In the second part of the book, the fully fledged three-dimensional theory is presented and applied to hyperelasticity of soft tissue, and to theories of remodeling, aging and growth. The book closes with a chapter devoted to Finite Element analysis. These and other topics are illustrated with case studies motivated by biomedical applications, such as vibration of air in the air canal, hyperthermia treatment of tumours, striated muscle memory, biphasic model of cartilage and adaptive elasticity of bone. The book offers a challenging and appealing introduction to Continuum Mechanics for students and researchers of biomechanics, and other engineering and scientific disciplines. Key features: -Explains continuum mechanics using examples from biomechanics for a uniquely accessible introduction to the topic -Moves from foundation topics, such as kinematics and balance laws, to more advanced areas such as theories of growth and the finite element method.-Transition from a one-dimensional approach to the general theory gives the book broad coverage, providing a clear introduction for beginners new to the topic, as well as an excellent foundation for those considering moving to more advanced application.
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Includes bibliographical references and index.

Print version record.

The Elements of Continuum Biomechanics; Contents; Preface; Part I A One-Dimensional Context; Chapter 1 Material Bodies and Kinematics; 1.1 Introduction; 1.2 Continuous versus Discrete; 1.3 Configurations and Deformations; 1.4 The Deformation Gradient; 1.5 Change of Reference Configuration; 1.6 Strain; 1.7 Displacement; 1.8 Motion; 1.9 The Lagrangian and Eulerian Representations of Fields; 1.10 The Material Derivative; 1.11 The Rate of Deformation; 1.12 The Cross Section; Chapter 2 Balance Laws; 2.1 Introduction; 2.2 The Generic Lagrangian Balance Equation; 2.2.1 Extensive Properties.

An appealing and engaging introduction to Continuum Mechanics in Biosciences This book presents the elements of Continuum Mechanics to people interested in applications to biological systems. It is divided into two parts, the first of which introduces the basic concepts within a strictly one-dimensional spatial context. This policy has been adopted so as to allow the newcomer to Continuum Mechanics to appreciate how the theory can be applied to important issues in Biomechanics from the very beginning. These include mechanical and thermodynamical balance, materials with fading memory and chemically reacting mixtures. In the second part of the book, the fully fledged three-dimensional theory is presented and applied to hyperelasticity of soft tissue, and to theories of remodeling, aging and growth. The book closes with a chapter devoted to Finite Element analysis. These and other topics are illustrated with case studies motivated by biomedical applications, such as vibration of air in the air canal, hyperthermia treatment of tumours, striated muscle memory, biphasic model of cartilage and adaptive elasticity of bone. The book offers a challenging and appealing introduction to Continuum Mechanics for students and researchers of biomechanics, and other engineering and scientific disciplines. Key features: -Explains continuum mechanics using examples from biomechanics for a uniquely accessible introduction to the topic -Moves from foundation topics, such as kinematics and balance laws, to more advanced areas such as theories of growth and the finite element method.-Transition from a one-dimensional approach to the general theory gives the book broad coverage, providing a clear introduction for beginners new to the topic, as well as an excellent foundation for those considering moving to more advanced application.

Physical Science