The Virtual Fields Method
The Virtual Fields Method

Author: Fabrice Pierron

Publisher: Springer Science & Business Media

Published: 2012-03-21

Total Pages: 531

ISBN-13: 1461418240

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The Virtual Fields Method: Extracting Constitutive Mechanical Parameters from Full-field Deformation Measurements is the first and only one on the Virtual Fields Method, a recent technique to identify materials mechanical properties from full-field measurements. It contains an extensive theoretical description of the method as well as numerous examples of application to a wide range of materials (composites, metals, welds, biomaterials etc.) and situations(static, vibration, high strain rate etc.). Finally, it contains a detailed training section with examples of progressive difficulty to lead the reader to program the VFM. This is accompanied with a set of commented Matlab programs as well as with a GUI Matlab based software for more general situations.

Testing of the Plastic Deformation of Metals
Testing of the Plastic Deformation of Metals

Author: T. W. Clyne

Publisher: Cambridge University Press

Published: 2021-06-10

Total Pages: 297

ISBN-13: 1108837891

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Discover a novel approach to the subject, providing detailed information about established and innovative mechanical testing procedures.

Computation of Tensile Strain-Hardening Exponents Through the Power-Law Relationship
Computation of Tensile Strain-Hardening Exponents Through the Power-Law Relationship

Author: Ariel E. Matusevich

Publisher:

Published: 2012

Total Pages: 10

ISBN-13:

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Many metals flow in the region of uniform plastic deformation following a power-law relationship, which states that true stress is proportional to true-plastic strain raised to the power n. The exponent n, known as the tensile strain-hardening exponent, can be determined from a tension test through appropriate transformations of stress-strain data and least-squares fitting of a straight line. Procedures for the computation of n have been standardized by ASTM International and ISO. Current ASTM and ISO standards differ, most notably, in the type of strain used in calculations. The ASTM procedure permits the use of true strain (true-elastic strain plus true-plastic strain), when true-elastic strain represents less than 10 % of total strain. On the other hand, the ISO version stipulates the subtraction of true-elastic strain from true strain, using a formula whose derivation is not publicly available. In this work, we revisit the expressions that enable the transformation of engineering stress-strain data to true-stress and true-plastic-strain values. Using eight tension-test curves from several materials, obtained through ASCII files publicly available at the website of the National Physical Laboratory of the United Kingdom, we compare n-values obtained via three definitions of strain: (i) true strain, (ii) conventional definition of true-plastic strain, and (iii) true-plastic strain according to the ISO formula. In addition, we investigate the dependency of the results on the strain range over which n-values are calculated. To evaluate strain-range dependency, which arises when metals do not closely follow the power-law relationship, we analyze the effect of strain intervals of increasing length and study the variation of n-values when the range of interest is divided into subintervals. To improve the approximation given by the power-law relationship over the region under analysis, we propose an alternative formulation in which the strength coefficient and the strain-hardening exponent are functions of true-plastic strain.

Elements of Metallurgy and Engineering Alloys
Elements of Metallurgy and Engineering Alloys

Author: Flake C. Campbell

Publisher: ASM International

Published: 2008-01-01

Total Pages: 671

ISBN-13: 1615030581

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This practical reference provides thorough and systematic coverage on both basic metallurgy and the practical engineering aspects of metallic material selection and application.

Applied Stress Analysis of Plastics
Applied Stress Analysis of Plastics

Author: S.I. Krishnamachari

Publisher: Springer Science & Business Media

Published: 2013-11-27

Total Pages: 612

ISBN-13: 1461531101

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This book is a product of the understanding I developed of stress analysis applied to plastics, while at work at L. J. Broutman and Associates (UBA) and as a lecturer in the seminars on this topic co-sponsored by UBA and Society of Plastics Engineers. I believe that by its extent and level of treatment, this book would serve as an easy-to-read desktop reference for professionals, as well as a text book at the junior or senior level in undergraduate programs. The main theme of this book is what to do with computed stress. To approach the theme effectively, I have taken the "stress category ap proach" to stress analysis. Such an approach is being successfully used in the nuclear power field. In plastics, this approach helps in the prediction of long term behavior of structures. To maintain interest I have limited derivations and proofs to a minimum, and provided them, if at all, as flow charts. In this way, I believe that one can see better the connection between the variables, assumptions, and mathematics.

Testing of the Plastic Deformation of Metals
Testing of the Plastic Deformation of Metals

Author: T. W. Clyne

Publisher: Cambridge University Press

Published: 2021-06-10

Total Pages: 298

ISBN-13: 1108950299

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Discover a novel, self-contained approach to an important technical area, providing both theoretical background and practical details. Coverage includes mechanics and physical metallurgy, as well as study of both established and novel procedures such as indentation plastometry. Numerical simulation (FEM modelling) is explored thoroughly, and issues of scale are discussed in depth. Discusses procedures designed to explore plasticity under various conditions, and relates sample responses to deformation mechanisms, including microstructural effects. Features references throughout to industrial processing and component usage conditions, to a wide range of metallic alloys, and to effects of residual stresses, anisotropy and inhomogeneity within samples. A perfect tool for materials scientists, engineers and researchers involved in mechanical testing (of metals), and those involved in the development of novel materials and components.

Plastic Deformation and Strain Hardening
Plastic Deformation and Strain Hardening

Author: P.O. Kettunen

Publisher: Trans Tech Publications Ltd

Published: 2003-03-01

Total Pages: 420

ISBN-13: 3035705976

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This publication is based upon lectures given during a well-received course on physical metallurgy and originally intended for students specializing in fields related to metallic materials. But, as the author points out, metallic materials are the most widely investigated group of materials and their study therefore gives a good basis for understanding how other materials can be made to reveal interrelationships between their structures and properties; especially with regard to those properties associated with strain. Similar types of rule can then be applied to other materials, in spite of their apparent differences.