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273 tulosta hakusanalla "Elasticity"

Elasticity

Elasticity

Martin H. Sadd

Academic Press Inc
2020
nidottu
Elasticity: Theory, Applications, and Numerics, Fourth Edition, continues its market-leading tradition of concisely presenting and developing the linear theory of elasticity, moving from solution methodologies, formulations, and strategies into applications of contemporary interest, such as fracture mechanics, anisotropic and composite materials, micromechanics, nonhomogeneous graded materials, and computational methods. Developed for a one- or two-semester graduate elasticity course, this new edition has been revised with new worked examples and exercises, and new or expanded coverage of areas such as treatment of large deformations, fracture mechanics, strain gradient and surface elasticity theory, and tensor analysis. Using MATLAB software, numerical activities in the text are integrated with analytical problem solutions. Online ancillary support materials for instructors include a solutions manual, image bank, and a set of PowerPoint lecture slides.
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Elasticity

Elasticity

Martin H. Sadd

ELSEVIER SCIENCE PUBLISHING CO INC
2025
nidottu
Elasticity: Theory, Applications, and Numerics, Fifth Edition continues its market-leading tradition of concisely presenting and developing the linear theory of elasticity, moving from solution methodologies, formulations, and strategies into applications of contemporary interest, such as fracture mechanics, anisotropic and composite materials, micromechanics, nonhomogeneous graded materials, and computational methods. Developed for a one- or two-semester graduate elasticity course, this new edition has been revised with new worked examples, exercises, and new or expanded coverage in recent areas of interest. Using MATLAB® software, numerical activities in the text are integrated with analytical problem solutions, and new symbolic software has now been introduced.
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Elasticity

Elasticity

J.R. Barber

Springer
1992
sidottu
A graduate textbook, based on a course taught by the author. Placing emphasis on engineering applications, it pays special attention to crack and contact problems, interfaces between dissimilar media, thermoelasticity, singular asymptotic stress fields and three-dimensional problems.
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Elasticity

Elasticity

J.R. Barber

Springer
1993
nidottu
A graduate textbook, based on a one-semester course taught by the author. Placing emphasis on engineering applications, it pays special attention to crack and contact problems, interfaces between dissimilar media, thermoelasticity, singular asymptotic stress fields and three-dimensional problems.
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Elasticity

Elasticity

Adel Saada

J Ross Publishing
2009
nidottu
Elasticity: Theory and Applications, now in a revised and updated second edition, has long been used as a textbook by seniors and graduate students in civil, mechanical, and biomedical engineering, since the first edition was published in 1974. The kinematics of continuous media and the analysis of stress are introduced through the concept of linear transformation of points and brought together to study in great detail the linear theory of elasticity as well as its application to a variety of practical problems. Elastic stability, the theory of thin plates, and the theory of thin shells are covered. Complex variables are introduced and used to solve two dimensional and fracture-related problems. Through theory, solved examples and problems, this authoritative book helps the student acquire the foundation needed to pursue advanced studies in all the branches of continuum mechanics. It also helps practitioners understand the source of many of the formulas they use in their designs. A solutions manual is available to instructors.
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Elasticity

Elasticity

J. R. Barber

Springer International Publishing AG
2023
sidottu
This book emphasizes engineering applications of elasticity. This is a first-year graduate textbook in linear elasticity. It is written with the practical engineering reader in mind, dependence on previous knowledge of solid mechanics, continuum mechanics or mathematics being minimized. Examples are generally worked through to final expressions for the stress and displacement fields in order to explore the engineering consequences of the results. This 4th edition presents new and revised material, notably on the Eshelby inclusion problem and anisotropic elasticity.The topics covered are chosen with a view to modern research applications in fracture mechanics, composite materials, tribology and numerical methods. Thus, significant attention is given to crack and contact problems, problems involving interfaces between dissimilar media, thermoelasticity, singular asymptotic stress fields and three-dimensional problems.
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Elasticity

Elasticity

J. R. Barber

Springer International Publishing AG
2024
nidottu
This book emphasizes engineering applications of elasticity. This is a first-year graduate textbook in linear elasticity. It is written with the practical engineering reader in mind, dependence on previous knowledge of solid mechanics, continuum mechanics or mathematics being minimized. Examples are generally worked through to final expressions for the stress and displacement fields in order to explore the engineering consequences of the results. This 4th edition presents new and revised material, notably on the Eshelby inclusion problem and anisotropic elasticity.The topics covered are chosen with a view to modern research applications in fracture mechanics, composite materials, tribology and numerical methods. Thus, significant attention is given to crack and contact problems, problems involving interfaces between dissimilar media, thermoelasticity, singular asymptotic stress fields and three-dimensional problems.
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Elasticity

Elasticity

J. R. Barber

Springer
2009
sidottu
The subject of Elasticity can be approached from several points of view, - pending on whether the practitioner is principally interested in the mat- matical structure of the subject or in its use in engineering applications and, in the latter case, whether essentially numerical or analytical methods are envisaged as the solution method. My ?rst introduction to the subject was in response to a need for information about a speci?c problem in Tribology. As a practising Engineer with a background only in elementary Mechanics of - terials, I approached that problem initially using the concepts of concentrated forces and superposition. Today, with a rather more extensive knowledge of analytical techniques in Elasticity, I still ?nd it helpful to go back to these roots in the elementary theory and think through a problem physically as well as mathematically, whenever some new and unexpected feature presents di?culties in research. This way of thinking will be found to permeate this book. My engineering background will also reveal itself in a tendency to work examples through to ?nal expressions for stresses and displacements, rather than leave the derivation at a point where the remaining manipulations would be mathematically routine. The ?rst edition of this book, published in 1992, was based on a one semester graduate course on Linear Elasticity that I have taught at the U- versity of Michigan since 1983.
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Elasticity and Geometry

Elasticity and Geometry

Basile Audoly; Yves Pomeau

Oxford University Press
2010
sidottu
We experience elasticity everywhere in daily life: in the straightening or curling of hairs, the irreversible deformations of car bodies after a crash, or the bouncing of elastic balls in ping-pong or soccer. The theory of elasticity is essential to the recent developments of applied and fundamental science, such as the bio-mechanics of DNA filaments and other macro-molecules, and the animation of virtual characters in computer graphics and materials science. In this book, the emphasis is on the elasticity of thin bodies (plates, shells, rods) in connection with geometry. It covers such topics as the mechanics of hairs (curled and straight), the buckling instabilities of stressed plates, including folds and conical points appearing at larger stresses, the geometric rigidity of elastic shells, and the delamination of thin compressed films. It applies general methods of classical analysis, including advanced nonlinear aspects (bifurcation theory, boundary layer analysis), to derive detailed, fully explicit solutions to specific problems. These theoretical concepts are discussed in connection with experiments. The book is self-contained. Mathematical prerequisites are vector analysis and differential equations. The book can serve as a concrete introduction to nonlinear methods in analysis.
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Elasticity and Geometry

Elasticity and Geometry

Basile Audoly; Yves Pomeau

Oxford University Press
2018
nidottu
We experience elasticity everywhere in daily life: in the straightening or curling of hairs, the irreversible deformations of car bodies after a crash, or the bouncing of elastic balls in ping-pong or soccer. The theory of elasticity is essential to the recent developments of applied and fundamental science, such as the bio-mechanics of DNA filaments and other macro-molecules, and the animation of virtual characters in computer graphics and materials science. In this book, the emphasis is on the elasticity of thin bodies (plates, shells, rods) in connection with geometry. It covers such topics as the mechanics of hairs (curled and straight), the buckling instabilities of stressed plates, including folds and conical points appearing at larger stresses, the geometric rigidity of elastic shells, and the delamination of thin compressed films. It applies general methods of classical analysis, including advanced nonlinear aspects (bifurcation theory, boundary layer analysis), to derive detailed, fully explicit solutions to specific problems. These theoretical concepts are discussed in connection with experiments. Mathematical prerequisites are vector analysis and differential equations. The book can serve as a concrete introduction to nonlinear methods in analysis.
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Elasticity, Fracture and Flow

Elasticity, Fracture and Flow

J. C. Jaeger

Chapman and Hall
1971
nidottu
IN this monograph I have attempted to set out, in as elemen­ tary a form as possible, the basic mathematics of the theories of elasticity, plasticity, viscosity, and rheology, together with a discussion of the properties of the materials involved and the way in which they are idealized to form a basis for the mathe­ matical theory. There are many mathematical text-books on these subjects, but they are largely devoted to methods for the solution of special problems, and, while the present book may be regarded as an introduction to these, it is also in­ tended for the large class of readers such as engineers and geologists who are more interested in the detailed analysis of stress and strain, the properties of some of the materials they use, criteria for flow and fracture, and so on, and whose interest in the theory is rather in the assumptions involved in it and the way in which they affect the solutions than in the study of special problems. The first chapter develops the analysis of stress and strain rather fully, giving, in particular, an account of Mohr's repre­ sentations of stress and of finite homogeneous strain in three dimensions. In the second chapter, on the behaviour of materials, the stress-strain relations for elasticity (both for isotropic and simple anisotropic substances), viscosity, plas­ ticity and some of the simpler rheological models are described.
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Elasticity, Plasticity and Structure of Matter

Elasticity, Plasticity and Structure of Matter

R. Houwink; H. K. De Decker

Cambridge University Press
1971
sidottu
When this volume was first published in 1971, the science of deformation of materials, now usually known as rheology, had branched out into several new and significant areas of research. In particular, the search for compounds with specified desirable properties had produced synthetic materials of great technological importance. This third edition contains authoritative contributions from specialists in the various fields. The aim of the book was to draw together and discuss the problems of physicists, chemists and technologists, and the editors attempted, in so far as it was possible for a science in a state of growth, to trace a unity of thought THAT is seldom apparent in the literature of this subject. The early chapters deal with the physical principles of elasticity, plasticity and viscosity, and relate physical and chemical structure to rheological properties. Individual chapters later in the book contain comparative accounts of a wide range of materials, some naturally occurring and others man-made; the general theoretical laws of rheology are compared with experimental observations.
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Elasticity, Plasticity and Structure of Matter

Elasticity, Plasticity and Structure of Matter

R. Houwink; H. K. de Decker

Cambridge University Press
2009
pokkari
When this volume was first published in 1971, the science of deformation of materials, now usually known as rheology, had branched out into several new and significant areas of research. In particular, the search for compounds with specified desirable properties had produced synthetic materials of great technological importance. This third edition contains authoritative contributions from specialists in the various fields. The aim of the book was to draw together and discuss the problems of physicists, chemists and technologists, and the editors attempted, in so far as it was possible for a science in a state of growth, to trace a unity of thought THAT is seldom apparent in the literature of this subject. The early chapters deal with the physical principles of elasticity, plasticity and viscosity, and relate physical and chemical structure to rheological properties. Individual chapters later in the book contain comparative accounts of a wide range of materials, some naturally occurring and others man-made; the general theoretical laws of rheology are compared with experimental observations.
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Elasticity and Geomechanics

Elasticity and Geomechanics

Cambridge University Press
1996
sidottu
This book concisely examines the use of elasticity in solving geotechnical engineering problems. In a highly illustrated and user-friendly format, it provides a thorough grounding in the linear theory of elasticity and an understanding of the applications, for upper level students in civil engineering and engineering geology. The first two chapters present a basic framework of the theory of elasticity and describe test procedures for the determination of elastic parameters for soils. Chapters 3 and 4 present the fundamental solutions of Boussinesque, Kelvin and Mindlin and use these to formulate solutions to problems of practical interest in geotechnical engineering. The book concludes with a sequence of appendices designed to provide the interested student with details of elasticity theory which are peripheral to the main text. Each chapter includes a set of questions for the student to answer.
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Elasticity and Geomechanics

Elasticity and Geomechanics

Cambridge University Press
1996
pokkari
This book concisely examines the use of elasticity in solving geotechnical engineering problems. In a highly illustrated and user-friendly format, it provides a thorough grounding in the linear theory of elasticity and an understanding of the applications, for upper level students in civil engineering and engineering geology. The first two chapters present a basic framework of the theory of elasticity and describe test procedures for the determination of elastic parameters for soils. Chapters 3 and 4 present the fundamental solutions of Boussinesque, Kelvin and Mindlin and use these to formulate solutions to problems of practical interest in geotechnical engineering. The book concludes with a sequence of appendices designed to provide the interested student with details of elasticity theory which are peripheral to the main text. Each chapter includes a set of questions for the student to answer.
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Elasticity with Mathematica ®

Elasticity with Mathematica ®

Andrei Constantinescu; Alexander Korsunsky

Cambridge University Press
2007
sidottu
This book introduces key ideas and principles in the theory of elasticity with the help of symbolic computation. Differential and integral operators on vector and tensor fields of displacements, strains and stresses are considered on a consistent and rigorous basis with respect to curvilinear orthogonal coordinate systems. As a consequence, vector and tensor objects can be manipulated readily, and fundamental concepts can be illustrated and problems solved with ease. The method is illustrated using a variety of plane and three-dimensional elastic problems. General theorems, fundamental solutions, displacements and stress potentials are presented and discussed. The Rayleigh-Ritz method for obtaining approximate solutions is introduced for elastostatic and spectral analysis problems. Containing more than 60 exercises and solutions in the form of Mathematica notebooks that accompany every chapter, the reader can learn and master the techniques while applying them to a large range of practical and fundamental problems.
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