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Modeling of Material Damage and Failure of Structures: Theory and Applications

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Continuum damage mechanics is a quickly developing branch of solid mechanics. Thermo-dynamical bases for it consists in an appropriate coupling between the constitutive equations for the basic material, evolution equations for micrcracks and microvoids growth and accumulation, and heat flux in partly damaged solids. The book provides, in a systematic and concise way, a broad spectrum of existing and current constitutive models for isotropic or anisotropic continuum damage evolution in solids, as well as the constitutive equations for inelastic time-dependent solids in the presence of damage. Particular attention is paid to creep- and creep-like damage in high temparature structural members subject to mechanical and thermal loadings. The effective numerical procedures and computer methods are adopted and developed for classical and non-classical creep damage accumulation, when microcrack orientation change with time, resulting in non-stationary mechanical and thermal fields.

Author(s): Professor Dr. Jacek J. Skrzypek, Dr. Artur Ganczarski (auth.)
Series: Foundations of Engineering Mechanics
Edition: 1
Publisher: Springer-Verlag Berlin Heidelberg
Year: 1999

Language: English
Pages: 326
Tags: Structural Mechanics;Continuum Mechanics and Mechanics of Materials;Computational Intelligence;Mechanics;Characterization and Evaluation of Materials

Front Matter....Pages i-xi
Front Matter....Pages 1-1
Continuum damage mechanics: basic concepts....Pages 3-20
Effect of isotropic damage evolution on (visco)plasticity....Pages 21-68
Three-dimensional anisotropic damage representation....Pages 69-102
Three-dimensional anisotropic damage accumulation....Pages 103-134
Coupled thermo-damage and damage-fracture fields....Pages 135-158
Front Matter....Pages 159-159
Creep damage and failure of axisymmetric structures....Pages 161-170
Axisymmetric heat transfer problems in damaged cylinders and disks....Pages 171-187
Creep-damage and failure of axisymmetric disks with shear effect included....Pages 189-202
Creep damage and failure analysis of thin axisymmetric plates....Pages 203-221
Two-dimensional coupled anisotropic creep-brittle damage and elastic-brittle failure problems....Pages 223-243
Front Matter....Pages 245-245
Formulation of optimal design under creep-damage conditions....Pages 247-256
Optimal design of axisymmetric disks....Pages 257-280
Optimal design of thin axisymmetric plates....Pages 281-292
Back Matter....Pages 293-326