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Steels are by far the most important construction materials for many applications. Many modern concepts of materials science are being used in steels, e.g., in micro-alloyed steels minute amounts of alloying elements form nanoscale carbides to yield superior strength values. All of these mechanisms have to be controlled in the production facilities on a scale of hundreds of tons. This book addresses these new concepts for improving the efficiency of production technologies
The strength of metallic materials determines the usability and reliability of all the machines, tools and equipment around us. Yet, the question about which mechanisms control the strength and damage resistance of materials and how they can be optimised remains largely unanswered. How do real, heterogeneous ma- rials deform and fail? Why can a small modification of the microstructure increase the strength and damage resistance of materials manifold? How can the strength of heterogeneous materials be predicted? The purpose of this book is to present different experimental and computational analysis methods of micromechanics of damage and strength of materials and to demonstrate their applications to various micromechanical problems. This book summarizes at a glance some of the publications of the Computational Mechanics Group at the IMWF/MPA Stuttgart, dealing with atomistic, micro- and meso- chanical modelling and experimental analysis of strength and damage of metallic materials. In chapter 1, the micromechanisms of damage and fracture in different groups of materials are investigated experimentally, using direct observations and inverse analysis. The interaction of microstructural elements with the evolving damage is studied in these experiments. Chapter 2 presents different approaches to the - cromechanical simulation of composite materials: embedded unit cells, multiphase finite elements and multiparticle unit cells. Examples of the application of these models to the analysis of deformation and damage in different materials are given. Chapter 3 deals with the methods of numerical modelling of damage evolution and crack growth in heterogeneous materials.
This book covers a variety of topics in mechanics, with a special emphasis on material mechanics. It reports on fracture mechanics, fatigue of materials, stress-strain behaviours, as well as transferability problems and constraint effects in fracture mechanics. It covers different kind of materials, from metallic materials such as ferritic and austenitic steels, to composites, concrete, polymers and nanomaterials. Additional topics include heat transfer, quality control and reliability of structures and components. Furthermore, the book gives particular attention to new welding technologies such as STIR welding and spray metal coating, and to novel methods for quality control, such as Taguchi design, fault diagnosis and wavelet analysis. Based on the 2015 edition of the Algerian Congress of Mechanics (Congrès Algérien de Mécanique, CAM), the book also covers energetics, in terms of simulation of turbulent reactive flow, behaviour of supersonic jet, turbulent combustion, fire induced smoke layer, and heat and mass transfer, as well as important concepts related to human reliability and safety of components and structures. All in all, the book represents a complete, practice-oriented reference guide for both academic and professionals in the field of mechanics.
Throughout the last two decades, the flat-steel production industry has experienced great success with the introduction of new technologies and manufacturing advances for both hot and cold steel-rolling. These improvements are resulting in significantly reduced production costs and better product quality. Recent consolidation of the steel industry-
Steels are by far the most important construction materials for many applications. Many modern concepts of materials science are being used in steels, e.g., in micro-alloyed steels minute amounts of alloying elements form nanoscale carbides to yield superior strength values. All of these mechanisms have to be controlled in the production facilities on a scale of hundreds of tons. This book addresses these new concepts for improving the efficiency of production technologies
Materials for Transportation Technology EUROMAT - Volume 1 Edited by P.-J. Winkler Engineering progress essentially depends on the availability and the intelligent use of materials. For many key industry areas, Europe constitutes a premier place for the development of new materials and their applications. EUROMAT '99, the biannual meeting of the Federation of European Materials Societies is the most comprehensive European event to demonstrate the wideranging interdisciplinary use of materials. A selection of the best papers presented here have been united in this 13-volume set, thus providing a survey of the latest developments in research and application in the entire field of engineering materials and advanced production technologies. Light design, high safety and comfort, and environmental compatibility are the requirements which influence the use of materials in automobiles. In the aerospace industry, there is today a strong necessity to substantially reduce development time and costs. Rail vehicles and ships are characterized by extremely long lifetime and high mileages. The achievement of these different objectives relies on the availability of novel or improved materials and related processes.
A common feature of advanced functional materials - such as thin films, layered structures and all kinds of nanoscale materials (ultrafine powders, polycrystals, nanocomposites, nanoporous or nanotubular materials) - is that their properties are mainly influenced by the structure and composition of their surfaces and interfaces. This book discusses the processing, fabrication, structure, properties and applications of such interface-controlled materials, highlighting the problem of determining the structure and properties of these advanced materials by different techniques.
This volume contains papers selected from the more than 120 contributions presented during the 4th international conference on Materials Structure & Micromechanics of Fracture (MSMF-4), in Brno, Czech Republic, June 23-25, 2004. The MSMF-4 conference successfully carried on the tradition of previous conferences. Nearly 150 scientists from 21 countries presented a variety of multiscale approaches to the modeling and testing of deformation and fracture processes in engineering materials. In collaboration with the International Advisory Board, the organizers also asked Prof. A. J. McEvily (University of Connecticut, USA), Prof. W. Dietzel (GKSS-Forschungszentrum Geesthacht GmbH, Germany), Prof. G. E. Beltz (University of Santa Barbara, California, USA) and Prof. T. Kitamura (Kyoto University, Japan) to prepare plenary key-note lectures. In addition, other leading scientists were asked to provide key-note lectures for each section. The resultant papers, ordered approximately in a sequence going from atomistic to mezoscopic to macroscopic, are presented in the first section of these proceedings. The contributed papers are similarly ordered in the second section.The main goal of the book was to demonstrate a variety of multiscale approaches, ranging from atomistic to macroscopic levels, and in this it succeeds admirably.