Author : H. Heinrich
Publisher : Walter de Gruyter GmbH & Co KG
Page : 60 pages
File Size : 41,19 MB
Release : 2022-12-05
Category : Social Science
ISBN : 3112570545
Author : Ulrich Trottenberg
Publisher : Academic Press
Page : 652 pages
File Size : 24,28 MB
Release : 2001
Category : Mathematics
ISBN : 9780127010700
Mathematics of Computing -- Numerical Analysis.
Author :
Publisher :
Page : 912 pages
File Size : 10,84 MB
Release : 1992
Category : Engineering
ISBN :
Author : Grégoire Allaire
Publisher : Oxford University Press, USA
Page : 472 pages
File Size : 26,60 MB
Release : 2007-05-24
Category : Mathematics
ISBN : 0199205213
Numerical Analysis and Optimization familiarises students with mathematical models (PDEs) and methods of numerical solution and optimization. Including numerous exercises and examples, this is an ideal text for advanced students in Applied Mathematics, Engineering, Physical Science and Computer Science.
Author : Alexander Mielke
Publisher : Springer
Page : 677 pages
File Size : 38,95 MB
Release : 2015-10-21
Category : Mathematics
ISBN : 149392706X
This monograph provides both an introduction to and a thorough exposition of the theory of rate-independent systems, which the authors have been working on with a lot of collaborators over 15 years. The focus is mostly on fully rate-independent systems, first on an abstract level either with or even without a linear structure, discussing various concepts of solutions with full mathematical rigor. Then, usefulness of the abstract concepts is demonstrated on the level of various applications primarily in continuum mechanics of solids, including suitable approximation strategies with guaranteed numerical stability and convergence. Particular applications concern inelastic processes such as plasticity, damage, phase transformations, or adhesive-type contacts both at small strains and at finite strains. A few other physical systems, e.g. magnetic or ferroelectric materials, and couplings to rate-dependent thermodynamic models are considered as well. Selected applications are accompanied by numerical simulations illustrating both the models and the efficiency of computational algorithms. In this book, the mathematical framework for a rigorous mathematical treatment of "rate-independent systems" is presented in a comprehensive form for the first time. Researchers and graduate students in applied mathematics, engineering, and computational physics will find this timely and well written book useful.
Author : Jean Lemaitre
Publisher : Springer Science & Business Media
Page : 396 pages
File Size : 40,18 MB
Release : 2006-01-16
Category : Science
ISBN : 3540272933
Reflecting his major contributions to the field, Jean Lemaitre’s "Engineering Damage Mechanics" presents simplified and advanced methods organized within a unified framework for designers of any mechanical component. Explains how to apply continuous damage mechanics to failures of mechanical and civil engineering components in ductile, creep, fatigue and brittle conditions. Incorporates many basic examples, while emphasizing key practical considerations such as material parameter identification, and provides perspective on the advantage and disadvantages of various approaches.
Author : Michael Renardy
Publisher : Springer Science & Business Media
Page : 447 pages
File Size : 49,43 MB
Release : 2006-04-18
Category : Mathematics
ISBN : 0387216871
Partial differential equations are fundamental to the modeling of natural phenomena. The desire to understand the solutions of these equations has always had a prominent place in the efforts of mathematicians and has inspired such diverse fields as complex function theory, functional analysis, and algebraic topology. This book, meant for a beginning graduate audience, provides a thorough introduction to partial differential equations.
Author : Henri J.-P. Morand
Publisher : Wiley
Page : 220 pages
File Size : 24,66 MB
Release : 1995-08-29
Category : Technology & Engineering
ISBN : 9780471944591
The aim of this book is to describe the methods leading to mechanical and numerical modelling of the linear vibrations of elastic structures coupled with internal fluids (sloshing, hydroelasticity and structural acoustics). It is characteristic of the problems under consideration that they are multidisciplinary involving structural and fluid representation and related numerical aspects. The problems are solved by direct resolution of the coupled systems by finite element methods and modal reduction procedures using the eigenmodes of ?elementary subsystems?. The numerical methods described in this book have applications in various engineering disciplines such as the automotive and aerospace industries, civil engineering, nuclear engineering and bioengineering.
Author : Hansjörg Kielhöfer
Publisher : Springer Science & Business Media
Page : 355 pages
File Size : 40,95 MB
Release : 2006-04-10
Category : Mathematics
ISBN : 0387216332
In the past three decades, bifurcation theory has matured into a well-established and vibrant branch of mathematics. This book gives a unified presentation in an abstract setting of the main theorems in bifurcation theory, as well as more recent and lesser known results. It covers both the local and global theory of one-parameter bifurcations for operators acting in infinite-dimensional Banach spaces, and shows how to apply the theory to problems involving partial differential equations. In addition to existence, qualitative properties such as stability and nodal structure of bifurcating solutions are treated in depth. This volume will serve as an important reference for mathematicians, physicists, and theoretically-inclined engineers working in bifurcation theory and its applications to partial differential equations.
Author : Daniele Antonio Di Pietro
Publisher : Springer Science & Business Media
Page : 392 pages
File Size : 18,19 MB
Release : 2011-11-03
Category : Mathematics
ISBN : 3642229808
This book introduces the basic ideas to build discontinuous Galerkin methods and, at the same time, incorporates several recent mathematical developments. The presentation is to a large extent self-contained and is intended for graduate students and researchers in numerical analysis. The material covers a wide range of model problems, both steady and unsteady, elaborating from advection-reaction and diffusion problems up to the Navier-Stokes equations and Friedrichs' systems. Both finite element and finite volume viewpoints are exploited to convey the main ideas underlying the design of the approximation. The analysis is presented in a rigorous mathematical setting where discrete counterparts of the key properties of the continuous problem are identified. The framework encompasses fairly general meshes regarding element shapes and hanging nodes. Salient implementation issues are also addressed.
