Plastic Deformation and Fracture of MaterialsRobert W. Cahn, Haël Mughrabi, Peter Haasen, Edward J. Kramer Materials Science and Technology A Comprehensive Treatment Edited by R.W. Cahn, P. Haasen, E.J. Kramer The 18-volume series ‘Materials Science and Technology' is the first in-depth, topic-oriented reference work devoted to this growing interdisciplinary field. A compendium of current, state-of-the-art information, it covers the most important classes of materials: metals, ceramics, glasses, polymers, semiconductors, and composites, from the fundamentals of perfect semiconductors via the physics of defects to "artificial" and amorphous semiconductors. Edited by internationally renowned figures in materials science, this series is sure to establish itself as a seminal work. Volume 6: This volume focuses on the mechanisms of plastic deformation and fatigue affecting the properties and performance of a wide variety of materials. Topics included are: flow stress and work hardening • dislocation patterning • solid solution strengthening • particle strengthening • superplasticity • inelastic deformation • cyclic deformation • fracture mechanisms • friction and wear • high-temperature deformation and creep • deformation and textures of metals at large strains |
Contents
Flow Stress and Work Hardening | 23 |
with Strong Tendency to Planar Slip | 48 |
List of Symbols and Abbreviations | 90 |
Copyright | |
16 other sections not shown
Other editions - View all
Common terms and phrases
Acta Metall active slip Aernoudt Aifantis applied stress Argon athermal Basinski and Basinski behavior Burgers vector cell copper critical cross-slip CRSS crystallite dipoles dislocation accumulation dislocation density dislocation glide dynamic recovery effect equation f.c.c. metals Figure flow stress forest fracture Gil Sevillano gliding dislocations grain boundaries Hansen hardening rate heterogeneities Houtte interac interaction internal stresses Kocks lattice Leffers loops macroscopic materials mechanism Mecking Metals and Alloys microstructure mobile dislocations Mughrabi Nabarro Neuhäuser observed obstacles orientation pattern Phys pileups plastic deformation plastic strain polycrystals Proc random forest resolved shear stress Risø National Laboratory saturation stress screw dislocations segments shear bands shear modulus shear stress simulations single crystals slip plane slip systems solid solution stacking fault energy stage strain rate Strength of Metals stress-strain curves Taylor temperature texture theory thermally activated tion Trans ture twin volume Walgraef
References to this book
Proceedings: Metal matrix composites and physical properties, Volume 3 Murray L. Scott No preview available - 1997 |