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Elasticity (Solid Mechanics and Its Applications)

Elasticity (Solid Mechanics and Its Applications)


by: J.R. Barber

Elasticity (Solid Mechanics and Its Applications)  library.nu #403473

md5: 23ed90bc45c0873f8afcf275ce331f60
size: 9.36 MB [ 9817000 bytes ]
type: .pdf
status: normal
language: en [ english ]
submitted by: anonymous


1402009666
9781402009662

metadata: ( ? )

year: 2004
pages: 431
bookmarked: yes
vector: yes
cover: yes
searchable: no
scanned: no
edition: 2nd edition





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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. Most of the text should be readily intelligible to a reader with an undergraduate background of one or two courses in elementary Mechanics of Materials and a rudimentary knowledge of partial differentiation. Emphasis is placed on engineering applications of elasticity and examples are generally worked through to final expressions for the stress and displacement fields in order to explore the engineering consequences of the results. The Topics covered were 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, thermo elasticity, singular asymptotic stress fields and three-dimensional problems. This second edition includes new chapters on antiplane stress systems, Saint-Venant torsion and bending and an expanded section on three-dimensional problems in spherical and cylindrical coordinate systems, including axisymmetric torsion of bars of non-uniform circular cross-section. It also includes over 200 end-of-chapter problems, which are expressed wherever possible in the form they would arise in engineering - i.e. as a body of a given geometry subjected to prescribed loading - instead of inviting the student to 'verify' that a given candidate stress function is appropriate to the problem. Solution of these problems is considerably facilitated by the use of modern symbolic mathematical languages such as Maple® and Mathematica® and electronic files and hints on this method of solution can be accessed at the web site.

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