Strength Of Metals And Alloys Icsma 8

Strength of Metals and Alloys (ICSMA 8)

Author : P. O. Kettunen

Publisher : Elsevier

Page : 1503 pages

File Size : 24,57 MB

Release : 2013-10-22

Category : Technology & Engineering

ISBN : 1483294153

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Book Description

Containing almost 250 technical and review papers, these proceedings form an authoritative, state-of-the-art review of this important multidisciplinary topic. Emphasis is placed on the study of the strength of mechanical properties of materials and their dependence on the microstructure and defect arrangements. Areas covered include: dislocations; dislocation arrangements; plastic deformation; strengthening mechanisms; cyclic deformation and fatigue; plastic deformation at high temperatures; fracture; modern strengthening methods in steels; boundaries and interfaces.



Computer Simulation in Materials Science

Author : M. Meyer

Publisher : Springer Science & Business Media

Page : 540 pages

File Size : 47,13 MB

Release : 2012-12-06

Category : Science

ISBN : 9401135460

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Book Description

This volume collects the contributions! to the NATO Advanced Study Institute (ASI) held in Aussois (France) by March 25 - April 5, 1991. This NATO ASI was intended to present and illustrate recent advances in computer simulation techniques applied to the study of materials science problems. Introductory lectures have been devoted to classical simulations with special reference to recent technical improvements, in view of their application to complex systems (glasses, molecular systems . . . ). Several other lectures and seminars focused on the methods of elaboration of interatomic potentials and to a critical presentation of quantum simulation techniques. On the other hand, seminars and poster sessions offered the opportunity to discuss the results of a great variety of simulation studies dealing with materials and complex systems. We hope that these proceedings will be of some help for those interested in simulations of material properties. The scientific committee advises have been of crucial importance in determining the conference program. The directors of the ASI express their gratitude to the colleagues who have participated to the committee: Y. Adda, A. Bellemans, G. BIeris, J. Castaing, C. R. A. Catlow, G. Ciccotti, J. Friedel, M. Gillan, J. P. Hansen, M. L. Klein, G. Martin, S. Nose, L. Rull-Fernandez, J. Valleau, J. Villain. The main financial support has been provided by the NATO Scientific Affairs Division and the Commission of European Communities (plan Science).



Mechanical Properties and Deformation Behavior of Materials Having Ultra-Fine Microstructures

Author : M. Nastasi

Publisher : Springer Science & Business Media

Page : 616 pages

File Size : 26,72 MB

Release : 2012-12-06

Category : Technology & Engineering

ISBN : 9401117659

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Book Description

In an attempt to meet the demand for new ultra-high strength materials, the processing of novel material configurations with unique microstructure is being explored in systems which are further and further from equilibrium. One such class of emerging materials is the so-called nanophased or nanostructured materials. This class of materials includes metals and alloys, ceramics, and polymers characterized by controlled ultra-fine microstructural features in the form oflayered, fibrous, or phase and grain distribution. While it is clear that these materials are in an early stage of development, there is now a sufficient body of literature to fuel discussion of how the mechanical properties and deformation behavior can be controlled through control of the microstructure. This NATO-Advanced Study Institute was convened in order to assess our current state of knowledge in the field of mechanical properties and deformation behavior in materials with ultra fine microstructure, to identify opportunities and needs for further research, and to identify the potential for technological applications. The Institute was the first international scientific meeting devoted to a discussion on the mechanical properties and deformation behavior of materials having grain sizes down to a few nanometers. Included in these discussions were the topics of superplasticity, tribology, and the supermodulus effect. Lectures were also presented which covered a variety of other themes including synthesis, characterization, thermodynamic stability, and general physical properties.



Purification Process and Characterization of Ultra High Purity Metals

Author : Yoshio Waseda

Publisher : Springer Science & Business Media

Page : 418 pages

File Size : 45,52 MB

Release : 2012-12-06

Category : Technology & Engineering

ISBN : 3642562558

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Book Description

This book starts with an extended introductory treatise on the fundamentals before moving on to a detailed description of the new methods of purification of transition metals and rare earth metals.



Thermomechanics of Viscoplasticity

Author : Milan Micunovic

Publisher : Springer Science & Business Media

Page : 249 pages

File Size : 10,9 MB

Release : 2009-04-20

Category : Technology & Engineering

ISBN : 038789490X

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Book Description

This work examines the geometrical and thermodynamical properties of mechanical behavior of metals and many polymeric and paste-like materials which are indispensable for developing a rational theory of viscoplasticity. The book is intended for researchers as well as Ph.D. students in the fields of material science and continuum mechanics. Anyone involved in the design of large scale industrial parts will also find this book highly useful. The concepts and results illustrated in this work are readily applicable to the rapidly developing field of biomechanics.



Fundamentals of Strength

Author : Paul S. Follansbee

Publisher : John Wiley & Sons

Page : 518 pages

File Size : 17,52 MB

Release : 2014-03-03

Category : Technology & Engineering

ISBN : 1118413415

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Book Description

Offers data, examples, and applications supporting the use of the mechanical threshold stress (MTS) model Written by Paul S. Follansbee, an international authority in the field, this book explores the underlying theory, mechanistic basis, and implementation of the mechanical threshold stress (MTS) model. Readers are introduced to such key topics as mechanical testing, crystal structure, thermodynamics, dislocation motion, dislocation–obstacle interactions, hardening through dislocation accumulation, and deformation kinetics. The models described in this book support the emerging theme of Integrated Computational Materials Engineering (ICME) by offering a foundation for the bridge between length scales characterizing the mesoscale (mechanistic) and the macroscopic. Fundamentals of Strength begins with a chapter that introduces various approaches to measuring the strength of metals. Next, it covers: Structure and bonding Contributions to strength Dislocation–obstacle interactions Constitutive law for metal deformation Further MTS model developments Data analysis: deriving MTS model parameters The next group of chapters examines the application of the MTS model to copper and nickel, BCC metals and alloys, HCP metals and alloys, austenitic stainless steels, and heavily deformed metals. The final chapter offers suggestions for the continued development and application of the MTS model. To help readers fully understand the application of the MTS model, the author presents two fictional materials along with extensive data sets. In addition, end-of-chapter exercises give readers the opportunity to apply the models themselves using a variety of data sets. Appropriate for both students and materials researchers, Fundamentals of Strength goes beyond theory, offering readers a model that is fully supported with examples and applications.



Automotive Alloys 1999

Author : Subodh K. Das

Publisher : John Wiley & Sons

Page : 339 pages

File Size : 28,9 MB

Release : 2013-09-18

Category : Technology & Engineering

ISBN : 1118787625

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Book Description

A discussion of the most recent developments in aluminum and magnesium alloys application in the automotive market, these proceedings cover physical and process metallurgy of aluminum and magnesium castings, extrusions, composites, and sheet; alloy processing; structure and properties characterization; commercial and pilot applications in the automotive market; and technology and performance.



An Introduction to Metal Matrix Composites

Author : T. W. Clyne

Publisher : Cambridge University Press

Page : 532 pages

File Size : 43,28 MB

Release : 1993

Category : Science

ISBN : 9780521483575

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Book Description

Metal matrix composites constitute a new class of materials, now starting to make a major industrial impact in fields as diverse as aerospace, automotives and electronics. This book gives a comprehensive, integrated coverage of these materials, including the background to analytical-, experimental-, production and application-oriented aspects. Clear pictorial descriptions are given of the basic principles governing various properties and characteristics; these encompass mechanical, thermal, electrical, environmental and wear behaviour. Coverage also extends to material processing and component fabrication aspects and to a survey of commercial usage. This book is aimed primarily at scientists, engineers, production managers and all those involved in research on new materials in general, and metal matrix composites in particular, but may also be suitable for use as a text in beginning graduate and advanced undergraduate courses.



Physics Of Creep And Creep-Resistant Alloys

Author : F R N Nabarro

Publisher : CRC Press

Page : 436 pages

File Size : 44,40 MB

Release : 2018-05-08

Category : Technology & Engineering

ISBN : 1135477620

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Book Description

Unique in its approach, this introduction to the physics of creep concentrates on the physical principles underlying observed phenomena. As such it provides a resource for graduate students in materials science, metallurgy, mechanical engineering, physics and chemistry as well as researchers in other fields. Following a brief mathematical treatment, the authors introduce creep phenomena together with some empirical laws and observations. The mechanisms of creep and diffusion under varying experimental conditions are subsequently analysed and developed. The second half of the text considers alloying in greater detail as well as exploring the structure and properties of superalloys and stress effects in these materials.



Physical Aspects of Fracture

Author : Elisabeth Bouchaud

Publisher : Springer Science & Business Media

Page : 369 pages

File Size : 43,87 MB

Release : 2012-12-06

Category : Science

ISBN : 9401006563

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Book Description

The main scope of this Cargese NATO Advanced Study Institute (June 5-17 2000) was to bring together a number of international experts, covering a large spectrum of the various Physical Aspects of Fracture. As a matter of fact, lecturers as well as participants were coming from various scientific communities: mechanics, physics, materials science, with the common objective of progressing towards a multi-scale description of fracture. This volume includes papers on most materials of practical interest: from concrete to ceramics through metallic alloys, glasses, polymers and composite materials. The classical fields of damage and fracture mechanisms are addressed (critical and sub-critical quasi-static crack propagation, stress corrosion, fatigue, fatigue-corrosion . . . . as well as dynamic fracture). Brittle and ductile fractures are considered and a balance has been carefully kept between experiments, simulations and theoretical models, and between the contributions of the various communities. New topics in damage and fracture mechanics - the effect of disorder and statistical aspects, dynamic fracture, friction and fracture of interfaces - were also explored. This large overview on the Physical Aspects of Fracture shows that the old barriers built between the different scales will soon "fracture". It is no more unrealistic to imagine that a crack initiated through a molecular dynamics description could be propagated at the grain level thanks to dislocation dynamics included in a crystal plasticity model, itself implemented in a finite element code. Linking what happens at the atomic scale to fracture of structures as large as a dam is the new emerging challenge.