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Elasticity in Engineering Mechanics
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Wird ein Körper einer äußeren Belastung ausgesetzt, dann verformt er sich. Ingenieure beschäftigen sich mit dem Phänomen der Elastizität, um derartige Verformungen vorhersagen und in Konstruktionsaufgaben berücksichtigen zu können. Diese neue, vollständig überarbeitete und aktualisierte Auflage diskutiert sowohl die Theorie als auch die Anwendung der Elastizität in der Baumechanik. (10/99)Comprehensive, accessible, and LOGICAL-an outstanding treatment of elasticity in engineering mechanics Arthur Boresi and Ken Chong's Elasticity in Engineering Mechanics has been prized by many aspi...
Wird ein Körper einer äußeren Belastung ausgesetzt, dann verformt er sich. Ingenieure beschäftigen sich mit dem Phänomen der Elastizität, um derartige Verformungen vorhersagen und in Konstruktionsaufgaben berücksichtigen zu können. Diese neue, vollständig überarbeitete und aktualisierte Auflage diskutiert sowohl die Theorie als auch die Anwendung der Elastizität in der Baumechanik. (10/99)
Comprehensive, accessible, and LOGICAL-an outstanding treatment of elasticity in engineering mechanics
Arthur Boresi and Ken Chong's Elasticity in Engineering Mechanics has been prized by many aspiring and practicing engineers as an easy-to-navigate guide to an area of engineering science that is fundamental to aeronautical, civil, and mechanical engineering, and to other branches of engineering. With its focus not only on elasticity theory but also on concrete applications in real engineering situations, this acclaimed work is a core text in a spectrum of courses at both the undergraduate and graduate levels, and a superior reference for engineering professionals. With more than 200 graphs, charts, and tables, this Second Edition includes:
* A complete solutions manual for instructors
* Clear explorations of such topics as deformation and stress, stress-strain-temperature relations, plane elasticity with respect to rectangular and polar coordinates, thermal stresses, and end loads
* Discussions of deformation and stress treated separately for clarity, with emphasis on both their independence and mathematical similarities
* An overview of the mathematical preliminaries to all aspects of elasticity, from stress analysis to vector fields, from the divergence theorem to tensor algebra
* Real-world examples and problem sets illustrating the most common elasticity solutions-such as equilibrium equations, the Galerkin vector, and Kelvin's problem
* A series of appendixes covering advanced topics such as complex variables and couple-stress theory
"Designers can utilize the contents of this book to understand the value as well as the limitations of the data." (Corrosion Review, August 2002)
Introductory Concepts and Mathematics.
Theory of Deformation.
Theory of Stress.
Three-Dimensional Equations of Elasticity.
Plane Theory of Elasticity in Rectangular Cartesian Coordinates.
Plane Elasticity in Polar Coordinates.
Prismatic Bar Subjected to End Load.
General Solutions of Elasticity.
References.
Bibliography.
Index.
Comprehensive, accessible, and LOGICAL-an outstanding treatment of elasticity in engineering mechanics
Arthur Boresi and Ken Chong's Elasticity in Engineering Mechanics has been prized by many aspiring and practicing engineers as an easy-to-navigate guide to an area of engineering science that is fundamental to aeronautical, civil, and mechanical engineering, and to other branches of engineering. With its focus not only on elasticity theory but also on concrete applications in real engineering situations, this acclaimed work is a core text in a spectrum of courses at both the undergraduate and graduate levels, and a superior reference for engineering professionals. With more than 200 graphs, charts, and tables, this Second Edition includes:
* A complete solutions manual for instructors
* Clear explorations of such topics as deformation and stress, stress-strain-temperature relations, plane elasticity with respect to rectangular and polar coordinates, thermal stresses, and end loads
* Discussions of deformation and stress treated separately for clarity, with emphasis on both their independence and mathematical similarities
* An overview of the mathematical preliminaries to all aspects of elasticity, from stress analysis to vector fields, from the divergence theorem to tensor algebra
* Real-world examples and problem sets illustrating the most common elasticity solutions-such as equilibrium equations, the Galerkin vector, and Kelvin's problem
* A series of appendixes covering advanced topics such as complex variables and couple-stress theory
"Designers can utilize the contents of this book to understand the value as well as the limitations of the data." (Corrosion Review, August 2002)
Introductory Concepts and Mathematics.
Theory of Deformation.
Theory of Stress.
Three-Dimensional Equations of Elasticity.
Plane Theory of Elasticity in Rectangular Cartesian Coordinates.
Plane Elasticity in Polar Coordinates.
Prismatic Bar Subjected to End Load.
General Solutions of Elasticity.
References.
Bibliography.
Index.