5 edition of Theory of dislocations found in the catalog.
Theory of dislocations
John Price Hirth
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This book presents coverage of the nucleation, motion, and interaction of crystalline defects called dislocations. It provides the basis to understand relaxation mechanisms in semiconductor materials, strengthening mechanisms and temperature-dependent behavior in metals, alloys, and ceramics, and applies this to mechanical deformation in : $ The dislocation concept is built up using basic theory of linear elasticity (Part 1 of the text).
Hence, this book is ideal for someone with an elaborate background in Mechanics/Elasticity and looking to extend their backgroud in Crystal Plasticity from a Materials Science by: Theory of Dislocations.
Theory of Dislocations provides unparalleled coverage of the fundamentals of dislocation theory, with applications to specific metal and ionic crystals. Rather than citing final results, step-by-step developments are provided to offer an in.
Theory of dislocations John Price Hirth, Jens Lothe This book is a comprehensive treatment of the fundamentals of dislocations. Sufficient detail is provided to make the book useful as a underrate text, and extends the treatment of specific problems to stimulate the advanced graduate student.
The book is intended to describe the basic and newly developed Theory of dislocations book of the physics of solids and materials science on mechanical properties of metals with as much continuity as is possible.
Particular emphasis has been placed in atomistic and fractal approaches and continuum theory of dislocations. Acta anisotropic antiphase applied stress approximation axis barrier bonds bow-out Burgers vector calculations charge chemical potential climb concentration configuration Consider coordinate cross slip deformation diamond cubic diffusion dislocation core dislocation line displacements dissociation edge dislocation effects Equation equilibrium Eshelby example external factor fee crystals FIGURE.
Discussing this specific aspect of materials science and engineering, Introduction to Dislocations is a key resource for students. The book provides students and practitioners with the fundamental principles required to understand dislocations.
Contrary to the geometrically motivated nonlinear theory of dislocations continuously distributed over the body, nonlinear analysis of isolated dislocations and disclinations is less developed; it is given for the first time in this book, and in a form accessible to both students and researchers.
Hardcover Theory of Dislocations provides unparalleled coverage of the fundamentals of dislocation theory, with applications to specific metal and ionic crystals. Rather than citing final results, step-by-step developments are provided to offer an in-depth understanding of the : Peter M.
Anderson, John P. Hirth, Jens Lothe. Hirth and J. Lothe, Theory of Dislocations, (Wiley, New York, ). This is the "Bible" for research in dislocations. It may be somewhat difficult to read if you do not have background in dislocations.
Hull and D. Bacon, Introduction to Dislocations, 4th ed. paperback. This book provides a good entry-level introduction to. Theory of Dislocations provides unparalleled coverage of the fundamentals of dislocation theory, with applications to specific metal and ionic crystals.
Rather than citing final results, step-by-step developments are provided to offer an in-depth understanding of the topic. Available in: of Dislocations provides unparalleled coverage of the fundamentals of dislocation theory, with applications to specific Due to COVID, orders may be delayed.
Thank you for your : Cambridge University Press. This book presents coverage of the nucleation, motion, and interaction of crystalline defects called dislocations.
It provides the basis to understand relaxation mechanisms in semiconductor materials, strengthening mechanisms and temperature-dependent behavior in metals, alloys, and ceramics, and applies this to mechanical deformation in : Peter M.
Anderson, John P. Hirth, Jens Lothe. Theory of Dislocations: Peter M. Anderson, John P. Hirth, Jens Lothe: Books - d: Peter M. Anderson. The book covers the elastic theory of straight and curved dislocations, including a chapter on elastic anisotropy. Applications to the theory of dislocation motion at low and high temperatures are presented.
This book presents coverage of the nucleation, motion, and interaction of crystalline defects called dislocations. It provides the basis to understand relaxation mechanisms in semiconductor materials, strengthening mechanisms and temperature-dependent behavior in metals, alloys, and ceramics, and applies this to mechanical deformation in crystals.
Theory Of - Free download Ebook, Handbook, Textbook, User Guide PDF files on the internet quickly and easily. The effect of lattice defects on the physical properties of metals is also considered. Comprised of nine chapters, this book begins by providing a short and, where possible, precise explanation of dislocation theory.
The first six chapters discuss the properties of dislocations and point defects both in crystals and in an elastic Edition: 1. Both traditional questions like the spectrum of vibrations, the idea of phonon gas, dislocations etc.
and new aspects like the theory of quantum crystals, solitons in 1D crystals, dislocation theory of melting of 2D crystals etc.
are discussed. Brand new Book. Theory of Dislocations provides unparalleled coverage of the fundamentals of dislocation theory, with applications to specific metal and ionic crystals.
Rather than citing final results, step-by-step developments are provided to offer an in-depth understanding of the Edition: 3rd Edition. Theory of Dislocations provides unparalleled coverage of the fundamentals of dislocation theory, with applications to specific metal and ionic crystals. Rather than citing final results, step-by-step developments are provided to offer an in-depth understanding of the : Cambridge University Press.History.
The theory describing the elastic fields of the defects was originally developed by Vito Volterra in The term 'dislocation' referring to a defect on the atomic scale was coined by G. I. Taylor in Prior to the s, one of the enduring challenges of materials science was to explain plasticity in microscopic terms.
A simplistic attempt to calculate the shear stress at.Mary E. John investigates the metaphor of dislocation within and across two specific "locations"—the United States and India—in this epistemological inquiry into the production of theory in general and the grounds of feminist ethnography in particular/5(3).