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Fundamentals of Deformation and Fracture : Eshelby Memorial Symposium Sheffield 2-5 April 1984 - B.A. Bilby

Fundamentals of Deformation and Fracture

Eshelby Memorial Symposium Sheffield 2-5 April 1984

By: B.A. Bilby (Editor), K. J. Miller (Editor), J.R. Willis (Editor)

Hardcover Published: 26th April 1985
ISBN: 9780521267359
Number Of Pages: 656

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The book comprises the papers presented at an International Symposium at Sheffield University in April 1984 held in memory of the late J. D. Eshelby FRS, Professor of the Theory, of Materials at the University of Sheffield. The papers, written by leading figures from the United States, Japan, Scandinavia, France, Germany and Australia, as well as the United Kingdom, reflect the range of Professor Eshelby's interests. Topics include conservation laws and their applications; inclusion, inhomogeneities and composites; short cracks; the dynamics of dislocations and cracks; dislocations and point defects; and creep fracture. There is also an obituary of Professor Eshelby, together with a complete list of his publications. The 45 papers in this volume provide an up-to-date international survey of current work in the field of deformation and fracture, with theoretical examinations, reports of empirical investigations and descriptions of experimental techniques.

Obituary
Publications
Introductory lecture
Conserved integrals and energetic forces
Symmetry groups and path-independent integrals
Conservation laws, the material momentum tensor and moments of elastic energy
General theory of inclusions
The analysis of the overall elastic properties of composite materials
Theoretical aspects of reinforcement and toughening
The loss of stiffness of cracked laminates
Mean field theory and the Bauschinger effect in composites
Elastic interaction and elastoplastic deformation of inhomogeneities
The mechanics of dynamic crack growth in solids
Dislocation damping and phonon scattering
Invariant integrals for some time dependent crack and heat conduction problems
Plastic deformations near a rapidly propagating crack tip
What happens at fast crack growth?
Creep crack growth in ductile alloys
Strength contributions during creep of composite materials
Suppression of grain boundary sliding by second phase particles
A continuum damage approach to creep crack growth
Thermal expansion of polycrystalline aggregates
The roles of dislocation motion and vacancy fluxes in creep
Dislocations in semiconductors
Dislocations in ionic crystals
Image stress and the Bauschinger effect in dispersion-hardened alloys
Geometry and behaviour of prismatic dislocation loops and stacking fault tetrahedra
Direct observations of anisotropic and surface effects on dislocations
Dislocations in anisotropic elastic media
A dislocation method for solving 3-D crack and inclusion problems in linear elastic solids
Interactions of point defects and dislocations
Material forces and configurational forces in the interaction of elastic singularities
Material balance laws in one-dimensional strength-of-materials theories
On the elastic T-term
Initiation and growth rates of short fatigue cracks
Role of internal stresses in the nucleation of fatigue cracks
Environmental effects novel to the propagation of short fatigue cracks
Experimental mechanics of fatigue crack growth: the effect of crack size
Cyclic deformation: the two phase model
Surface geometry in fatigued copper crystals
Papers not presented orally: 38. Similarity methods in fracture
A path-independent integral for mixed modes of fracture in linear thermoelasticity
Plasticity and creep mechanics from the viewpoint of the theory of elasticity
Poster Session: 41. Cyclic deformation of molybdenum crystals at 400 K
Experiments in Cosserat mechanics
Short crack fatigue behaviour in medium carbon steel
Slip and cleavage from blunted cracks
Author index.
Table of Contents provided by Publisher. All Rights Reserved.

ISBN: 9780521267359
ISBN-10: 0521267358
Audience: Tertiary; University or College
Format: Hardcover
Language: English
Number Of Pages: 656
Published: 26th April 1985
Publisher: Cambridge University Press
Country of Publication: GB
Dimensions (cm): 24.7 x 17.4  x 3.5
Weight (kg): 1.24