Theory of Structural Transformations in Solids PDF Download
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Author: Armen G. Khachaturyan
Publisher: Courier Corporation
ISBN: 0486462803
Category : Technology & Engineering
Languages : en
Pages : 594
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Book Description
Written by a world-renowned expert, this text addresses both theoretical and practical aspects of phase transformation in alloys. It examines change in atomic structure and morphology caused by ordering, strain-induced ordering, strain-controlled decomposition, and strain-induced coarsening, applying solid-state theoretical concepts to structure problems. 1983 edition.
Author: Armen G. Khachaturyan
Publisher: Courier Corporation
ISBN: 0486462803
Category : Technology & Engineering
Languages : en
Pages : 594
Get Book Here
Book Description
Written by a world-renowned expert, this text addresses both theoretical and practical aspects of phase transformation in alloys. It examines change in atomic structure and morphology caused by ordering, strain-induced ordering, strain-controlled decomposition, and strain-induced coarsening, applying solid-state theoretical concepts to structure problems. 1983 edition.
Author: Armen G. Khachaturyan
Publisher: Courier Corporation
ISBN: 0486783448
Category : Technology & Engineering
Languages : en
Pages : 594
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Book Description
Addressing both theoretical and practical aspects of phase transformation in alloys, this text formulates significant aspects of the quantitative metallurgy of phase transformations. It further applies solid-state theoretical concepts to structure problems arising in experimental studies of real alloys. Author Armen G. Khachaturyan, Professor of Materials Science at Rutgers University, ranks among the foremost authorities on this subject. In this volume, he takes a creative approach to examining change in atomic structure and morphology caused by ordering, strain-induced ordering, strain-controlled decomposition, and strain-induced coarsening. Unifying relationships among various fields of solid-state physics are stressed throughout the book. Topics include structure changes in two-phase alloys controlled by the phase transformation elastic strain, in addition to important results in the area of microscopic elasticity regarding problems of elastic interaction in impurity atoms, and strain-induced ordering and decomposition in interstitial solutions. An excellent text for advanced undergraduate and graduate courses in physical metallurgy, solid state physics, solid state chemistry, and materials science, this volume is also a valuable reference for professionals conducting research in phase transformations
Author: Armen Gurgenovich Khachaturi͡an
Publisher: Wiley-Interscience
ISBN: 9780471078739
Category : Alloys
Languages : en
Pages : 574
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Book Description
Author: Holm Altenbach
Publisher: Springer Nature
ISBN: 3030387089
Category : Technology & Engineering
Languages : en
Pages : 473
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Book Description
This book marks the 60th birthday of Prof. Vladimir Erofeev – a well-known specialist in the field of wave processes in solids, fluids, and structures. Featuring a collection of papers related to Prof. Erofeev’s contributions in the field, it presents articles on the current problems concerning the theory of nonlinear wave processes in generalized continua and structures. It also discusses a number of applications as well as various discrete and continuous dynamic models of structures and media and problems of nonlinear acoustic diagnostics.
Author: Jun Ouyang
Publisher: Elsevier
ISBN: 0128138572
Category : Technology & Engineering
Languages : en
Pages : 388
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Book Description
Nanostructures in Ferroelectric Films for Energy Applications: Grains, Domains, Interfaces and Engineering Methods presents methods of engineering nanostructures in ferroelectric films to improve their performance in energy harvesting and conversion and storage. Ferroelectric films, which have broad applications, including the emerging energy technology, usually consist of nanoscale inhomogeneities. For polycrystalline films, the size and distribution of nano-grains determines the macroscopic properties, especially the field-induced polarization response. For epitaxial films, the energy of internal long-range electric and elastic fields during their growth are minimized by formation of self-assembled nano-domains. This book is an accessible reference for both instructors in academia and R&D professionals. - Provides the necessary components for the systematic study of the structure-property relationship in ferroelectric thin film materials using case studies in energy applications - Written by leading experts in the research areas of piezoelectrics, electrocalorics, ferroelectric dielectrics (especially in capacitive energy storage), ferroelectric domains, and ferroelectric-Si technology - Includes a well balanced mix of theoretical design and simulation, materials processing and integration, and dedicated characterization methods of the involved nanostructures
Author: Z. X. Guo
Publisher: Elsevier
ISBN: 184569337X
Category : Technology & Engineering
Languages : en
Pages : 307
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Book Description
Multiscale materials modelling offers an integrated approach to modelling material behaviour across a range of scales from the electronic, atomic and microstructural up to the component level. As a result, it provides valuable new insights into complex structures and their properties, opening the way to develop new, multi-functional materials together with improved process and product designs. Multiscale materials modelling summarises some of the key techniques and their applications.The various chapters cover the spectrum of scales in modelling methodologies, including electronic structure calculations, mesoscale and continuum modelling. The book covers such themes as dislocation behaviour and plasticity as well as the modelling of structural materials such as metals, polymers and ceramics. With its distinguished editor and international team of contributors, Multiscale materials modelling is a valuable reference for both the modelling community and those in industry wanting to know more about how multiscale materials modelling can help optimise product and process design. - Reviews the principles and applications of mult-scale materials modelling - Covers themes such as dislocation behaviour and plasticity and the modelling of structural materials - Examines the spectrum of scales in modelling methodologies, including electronic structure calculations, mesoscale and continuum modelling
Author: Dmitri A. Molodov
Publisher: John Wiley & Sons
ISBN: 3527652833
Category : Technology & Engineering
Languages : en
Pages : 524
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Book Description
The choice of a material for a certain application is made taking into account its properties. If, for example one would like to produce a table, a hard material is needed to guarantee the stability of the product, but the material should not be too hard so that manufacturing is still as easy as possible - in this simple example wood might be the material of choice. When coming to more advanced applications the required properties are becoming more complex and the manufacturer`s desire is to tailor the properties of the material to fit the needs. To let this dream come true, insights into the microstructure of materials is crucial to finally control the properties of the materials because the microstructure determines its properties. Written by leading scientists in the field of microstructural design of engineering materials, this book focuses on the evolution and behavior of granular microstructures of various advanced materials during plastic deformation and treatment at elevated temperatures. These topics provide essential background and practical information for materials scientists, metallurgists and solid state physicists.
Author: O.T. Bruhns
Publisher: Springer Science & Business Media
ISBN: 0306469367
Category : Science
Languages : en
Pages : 515
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Book Description
Proceedings of the IUTAM Symposium held in Bochum, Germany, 25-29 August 1997
Author: Graeme W. Milton
Publisher: SIAM
ISBN: 1611977487
Category : Mathematics
Languages : en
Pages : 761
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Book Description
Composites have been studied for more than 150 years, and interest in their properties has been growing. This classic volume provides the foundations for understanding a broad range of composite properties, including electrical, magnetic, electromagnetic, elastic and viscoelastic, piezoelectric, thermal, fluid flow through porous materials, thermoelectric, pyroelectric, magnetoelectric, and conduction in the presence of a magnetic field (Hall effect). Exact solutions of the PDEs in model geometries provide one avenue of understanding composites; other avenues include microstructure-independent exact relations satisfied by effective moduli, for which the general theory is reviewed; approximation formulae for effective moduli; and series expansions for the fields and effective moduli that are the basis of numerical methods for computing these fields and moduli. The range of properties that composites can exhibit can be explored either through the model geometries or through microstructure-independent bounds on the properties. These bounds are obtained through variational principles, analytic methods, and Hilbert space approaches. Most interesting is when the properties of the composite are unlike those of the constituent materials, and there has been an explosion of interest in such composites, now known as metamaterials. The Theory of Composites surveys these aspects, among others, and complements the new body of literature that has emerged since the book was written. It remains relevant today by providing historical background, a compendium of numerous results, and through elucidating many of the tools still used today in the analysis of composite properties. This book is intended for applied mathematicians, physicists, and electrical and mechanical engineers. It will also be of interest to graduate students.
Author: Francisco E. Fujita
Publisher: Springer Science & Business Media
ISBN: 3662004615
Category : Science
Languages : en
Pages : 317
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Book Description
Physics of New Materials starts from basic science, specially solid-state physics, and then moves into the research and development of advanced materials. The emphasis of the discussions is concentrated on the electronicand atomic structures and properties of transition-metal systems, liquidand amorphous materials, the nano-phase materials, layered compounds, martensite and other structural-transformed materials, and ordered alloys. Though these discussions, the physical aspects and principles ofnew materials, such as strong ferromagnetic alloys, shape memory alloys, amorphous alloys, ultra-fine particles, intercalated layered compounds, deformable ceramics, and nuclear-physics techniques. In addition to these theoretical treatments, modern experimental techniques, exemplified by M|ssbauer spectroscopy and electron microscopy, demonstrate the vast scope of schemes needed in the development of new materials.
