Computational Methods for Predicting Material Processing Defects
Author: M. Predeleanu
Publisher:
Published: 1987
Total Pages: 366
ISBN-13: 9780444417589
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Computational methods for predicting material processing defects
Computational Methods for Predicting Material Processing Defects
Author: M. Predeleanu
Publisher: Elsevier
Published: 2014-06-28
Total Pages: 375
ISBN-13: 1483298493
DOWNLOAD EBOOK →The papers in this book deal with computational methods for predicting material processing defects. Using recent advances in finite strain plasticity and viscoplasticity, damage modelling, bifurcation and instability theory, fracture mechanics and computer numerical techniques, new approaches to mechanical defect analysis are proposed. Appropriate methods for explaining and avoiding the defects leading to fracture, high porosity, strain localization or undesirable geometrical imperfections are presented. In addition, some papers are devoted to new formulations and new calculation algorithms to be used for solving the forming problems. Finally, two papers deal with physical description of defects occurring in forming and cutting operations, focusing on the academic and practical interest of these topics.This is the first book to deal with the prediction of defects occurring in material forming processes; it contains much of interest from both a theoretical and a practical viewpoint.
Computational methods for predicting material processing defects 35 proc
Computational methods for predicting material processing defects
Author: Mircea Predeleanu
Publisher:
Published: 1987
Total Pages: 366
ISBN-13: 9780444417589
DOWNLOAD EBOOK →Advanced Methods in Materials Processing Defects
Author: M. Predeleanu
Publisher: Elsevier
Published: 1997-06-18
Total Pages: 422
ISBN-13: 9780080544892
DOWNLOAD EBOOK →This collection of papers focus on advanced methods for predicting and avoiding the occurrence of defects in manufactured products. A new feature is included, namely, the influence of the processing-induced defects on the integrity of structures. The following topics are developed: damage modeling; damage evaluation and rupture; strain localization and instability analysis; formability characterization; prediction of shape inaccuracies; influence of defects on structural integrity. The main manufacturing operations are covered and various materials are examined, such as new and conventional metal alloys, ceramics, polymers and composites.
Materials Processing Defects
Author: M. Predeleanu
Publisher: Elsevier
Published: 1995-02-24
Total Pages: 434
ISBN-13: 9780080544885
DOWNLOAD EBOOK →The technological field of defects, and more appropriately, avoidance of them, is very current in perhaps all sectors of the manufacturing industry. This is particularly important to reduce/minimize waste everywhere to address lean production procedures. The recent advances in finite plasticity and visioplasticity, damage modelling, instability theories, fracture modelling, computer numerical techniques and process simulation etc. offer new approaches and tools for defect prediction, analyses and guidelines for designing components to be manufactured by traditional and emerging process technologies. This volume contains contributions from well known researchers and experts in the field presenting an up-to-date overview of advances in this area. Subjects covered include: micro- and macro-scale observation of defects; localization and instability analysis; damage modelling and fracture criteria; defect prediction methods; design considerations to avoid defects.
Numerical Methods for Problems in Infinite Domains
Author: D. Givoli
Publisher: Elsevier
Published: 2013-10-22
Total Pages: 316
ISBN-13: 1483291081
DOWNLOAD EBOOK →This volume reviews and discusses the main numerical methods used today for solving problems in infinite domains. It also presents in detail one very effective method in this class, namely the Dirichlet-to-Neumann (DtN) finite element method. The book is intended to provide the researcher or engineer with the state-of-the-art in numerical solution methods for infinite domain problems, such as the problems encountered in acoustics and structural acoustics, fluid dynamics, meteorology, and many other fields of application. The emphasis is on the fundamentals of the various methods, and on reporting recent progress and forecasting future directions. An appendix at the end of the book provides an introduction to the essentials of the finite element method, and suggests a short list of texts on the subject which are categorized by their level of mathematics.
Deformation Based Processing of Materials
Author: Heng Li
Publisher: Elsevier
Published: 2019-02-15
Total Pages: 350
ISBN-13: 0128143819
DOWNLOAD EBOOK →Deformation Based Processing of Materials: Behavior, Performance, Modeling and Control focuses on deformation based process behaviors and process performance in terms of the quality of the needed shape, geometries, and the requested properties of the deformed products. In addition, modelling and simulation is covered to create an in-depth and epistemological understanding of the process. Other topics discussed include ways to efficiently reduce or avoid defects and effectively improve the quality of deformed parts. The book is ideal as a technical document, but also serves as scientific literature for engineers, scientists, academics, research students and management professionals involved in deformation based materials processing. Covers process behaviors, such as non-uniform deformation, unstable deformation, material flow phenomena, and process performance Includes modelling and simulation of the entire deformation process Looks at control of the preferred deformation, undesirable material flow, avoidance and reduction of defects, and improving the dimensional accuracy, surface quality and microstructure construction of the produced products
Nonlinear Computational Structural Mechanics
Author: Pierre Ladeveze
Publisher: Springer Science & Business Media
Published: 2012-12-06
Total Pages: 230
ISBN-13: 1461214327
DOWNLOAD EBOOK →This book treats computational modeling of structures in which strong nonlinearities are present. It is therefore a work in mechanics and engineering, although the discussion centers on methods that are considered parts of applied mathematics. The task is to simulate numerically the behavior of a structure under various imposed excitations, forces, and displacements, and then to determine the resulting damage to the structure, and ultimately to optimize it so as to minimize the damage, subject to various constraints. The method used is iterative: at each stage an approximation to the displacements, strains, and stresses throughout the structure is computated and over all times in the interval of interest. This method leads to a general approach for understanding structural models and the necessary approximations.
