This book concentrates on the mathematical theory of plasticity and fracture, and presents it in a thermomechanical framework. It follows the macroscopic, phenomenological approach, which proposes equations abstracted from generally accepted experimental facts, studies the adequacy of the consequences drawn from these equations to those facts, and then provides useful tools for designers and engineers. Many examples of plasticity and fracture are presented, and each chapter concludes with problems for students.
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Editorial Reviews
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"One could characterize the style of the book as 'robust'. It has obvious pedagogical appeal. In the introduction the author expresses his hope that the book will find its place both on the student's shelf and in the professional scientist's office. The reviewer strongly recommends that." Miroslav Silhavy, Mathematical Reviews
Book Description
This volume concentrates on the mathematical theory of plasticity and fracture, and presents it in a thermomechanical framework. Many examples of plasticity and fracture are presented, and each chapter concludes with problems for students.
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2 of 3 people found the following review helpful:
1.0 out of 5 stars
this book is so hard to understand,
By A Customer
This review is from: The Thermomechanics of Plasticity and Fracture (Cambridge Texts in Applied Mathematics) (Paperback)
This book is very hard to understand particularly because of the strange notaion used. The subject of the book is very good, and I couldnt find a parallel book anywhere else, so I am still diggning hard to get few ideas across.
4.0 out of 5 stars
Mechanics on a sound thermodynamic basis,
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This review is from: The Thermomechanics of Plasticity and Fracture (Cambridge Texts in Applied Mathematics) (Paperback)
Mechanician Gerard Maugin goes about describing the thermodynamic basis of continuum mechanics, focusing on small-strain elasto-plasticity and fracture, and taking a mathematical viewpoint. You would do well to have a background in continuum mechanics and possibly some functional analysis; Maugin makes heavy use of tensors and their accompanying indicial notation, and there are proofs that enlist the help of variational principles. That being said, I found this book to be an enlightening and thorough introduction to the topic. I would rate the prose somewhere on the above-average level of readability and reader engagement, but it isn't spectacular (so read this one with a cup of coffee close by). I enjoyed the brief history of each topic discussed, complete with references to the original papers (Hill, Rice, Woehler, E. Lee, Westergaard, von Mises, Prandtl, Barre de Saint-Venant, etc etc).
Those pesky laws of thermodynamics always apply, and so Maugin goes about explaining elasto-plasticity (mostly in metals) by using work and energy and the conservation thereof. Most of the time you can get away without due diligence for the first and second laws, but not all the time. For example, you will find a heat source at a crack tip, which is coupled to the work done by opening the crack itself. Plastic behavior (at the continuum/macroscale level) is defined to obey the laws of thermodynamics in the absence of better theories, and Maugin reviews the analysis behind such treatments. The link to thermal behavior is with some energy potential (usually Helmholtz free energy), which leads to a discussion of coupled thermo-mechanical problems. Given the nature of such a coupled beast, the discussion is rather terse compared to other topics. The largest shortcoming here is the treatment of numerical solutions of thermo-mechanical problems, but this is likely due to the book being nearly 20 years old. If you're on the market for information about thermomechanics, this book is right up your alley (even though it is a few years old)...but be aware that the audience is graduate-level engineers and applied mathematicians.
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Inside This Book
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First Sentence:
Although the underlying microscopic mechanisms are relatively complex, viewed on a macroscopic scale - as will be the case in this book - the plastic phenomenon can be quite simple. Read the first page Key Phrases - Statistically Improbable Phrases (SIPs): (learn more)
elastoplasticity problems, perfect elastoplasticity, normality law, generalized standard materials, elastoplastic solution, elasticity domain, intrinsic dissipation, rectilinear crack, plasticity threshold, elastoplastic problem, plastic multiplier, spherical envelope, normality rule, plastic dissipation, des milieux continus, perfect plasticity, hardening modulus, kinematic method, dissipation inequality, thermodynamic state variables, plastic strain rate, complementary laws, rheological model, associated flow rule, stress space Key Phrases - Capitalized Phrases (CAPs): (learn more)
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Although the underlying microscopic mechanisms are relatively complex, viewed on a macroscopic scale - as will be the case in this book - the plastic phenomenon can be quite simple. Read the first page Key Phrases - Statistically Improbable Phrases (SIPs): (learn more)
elastoplasticity problems, perfect elastoplasticity, normality law, generalized standard materials, elastoplastic solution, elasticity domain, intrinsic dissipation, rectilinear crack, plasticity threshold, elastoplastic problem, plastic multiplier, spherical envelope, normality rule, plastic dissipation, des milieux continus, perfect plasticity, hardening modulus, kinematic method, dissipation inequality, thermodynamic state variables, plastic strain rate, complementary laws, rheological model, associated flow rule, stress space Key Phrases - Capitalized Phrases (CAPs): (learn more)
Nguyen Quoc Son New!
Books on Related Topics | Concordance | Text Stats Browse Sample Pages:
Front Cover | Table of Contents | First Pages | Index | Back Cover | Surprise Me!
Citations (learn more)
This book cites 58
books:
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46
books
cite this book:
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- Fracture Mechanics (Siam-Ams Proceedings, V. 12.) by N. Y.) Symposium in Applied Mathematics (1978 New York in Back Matter (1), Back Matter (2), and Back Matter (3)
- Mechanics of Continua by a Cemal Eringen in Back Matter (1), and Back Matter (2)
- Mechanics of Solid Materials by Jean Lemaitre in Back Matter (1), and Back Matter (2)
- Mechanics of Electromagnetic Solids (Advances in Mechanics and Mathematics) by J.S. Yang in Back Matter (1), and Back Matter (2)
- Continuum Mechanics of Electromagnetic Solids by G. A. Maugin in Back Matter (1), and Back Matter (2)
See all 58 books this book cites
- The Thermomechanics of Nonlinear Irreversible Behaviours: An Introduction (World Scientific Series on Nonlinear Science, Series a, Vol 27) by Gerard A. Maugin on page 13, and Back Matter
- Finite Volume Methods for Hyperbolic Problems (Cambridge Texts in Applied Mathematics) by Randall J. LeVeque in Front Matter
- Mathematical Models in the Applied Sciences (Cambridge Texts in Applied Mathematics) by A. C. Fowler in Front Matter
- A Geometric Approach to Thermomechanics of Dissipating Continua (Progress in Mathematical Physics) by Lalao Rakotomanana in Back Matter
- Sintering Technology by GerMan/Messing/ in Back Matter
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