Overview

The need for modelling of materials behaviour under various mechanical conditions is driven by the evolution of computer capacity and the ability of scientists to address complex mechanical problems. Reliable models for materials behaviour, including accurate numerical values of parameters, are necessary for a continued beneficial development of the computational side of solid mechanics. High rate plasticity, thermally assisted creep and phase transformations are only a few examples of areas where more accurate models are needed. Experiments are necessary for the establishment of models and parameters, and modified versions of conventional test methods can make important contributions. Also modern optical methods offer a high potential for future experimental development. Numerical simulations of experiments and so-called inverse modelling are also frequently used techniques. In this book researchers with an interest in the area of experimental and computational aspects of materials modelling present modern advance methods and results.

Full Product Details

Author:   P. Ståhle ,  K.G. Sundin
Publisher:   Springer-Verlag New York Inc.
Imprint:   Springer-Verlag New York Inc.
Edition:   2003 ed.
Volume:   109
Dimensions:   Width: 15.50cm , Height: 1.50cm , Length: 23.50cm
Weight:   1.210kg
ISBN:  

9781402012839

ISBN 10:   1402012837
Pages:   246
Publication Date:   30 April 2003
Audience:   College/higher education ,  Professional and scholarly ,  Postgraduate, Research & Scholarly ,  Professional & Vocational
Format:   Hardback
Publisher's Status:   Active
Availability:   In Print  
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Table of Contents

Experimental Methods.- Whole-Field Displacement Measurement With Moiré Interferometry as a Basis for a Microstructural FE Model of a Polymer Bonded Explosive.- Measurement of Microscopic Residual Stress Based on the Evolution of Surface Roughness During Shallow Chemical Etching.- The Incubation Time Theory and Experiment.- Affordable TMF Testing Supported by FE Simulation.- Identification of Dynamic Properties of Railway Track.- Optical Method to Study Material Behaviour at High Strain Rates.- Determination of Cylindrical Elastic Orthotropy in Wood by Digital Speckle Photography.- Optimization Techniques and Simulation Methods.- Identification of Elastic/Visco-Plastic Material Constants Under Impact Loading.- Parameter Identification for Inverse Problems in Metal Forming Simulations.- One Step Prediction Error Approach to the Identification Problem of Creep and Viscoplastic Material Models.- Automated Identification and Calculation of the Parameters of Non-Linear Material Models.- Inversion Method Using Spectral Decomposition of Green’S Functions.- Determination of Ballast Parameters of Railway Track Using an Optimisation Technique.- Estimation of Material Parameters at Elevated Temperatures by Inverse Modelling of A Gleeble Experiment.- Material Modeling.- Hydride-Induced Embrittlement in Metals -Stress and Temperature Effects.- A Non-Isothermal Model for the Phase Transformations and the Mechanical Behaviour of a 12% Chromium Steel.- Size Effect on Stress-Intensity Factors of CNS Specimen With an Interface Crack Subjected To Mixed-Mode Loading.- On Pennyshaped Equilibrium Cracks in Materials Reinforced by Fibers.- Identification of Stress from Strain for Body With Not Fully Identified Constitutive Relations.- Evaluation Method of Interface Strength Between ThinFilms In LSI.- List of Authors.

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