Wear and contact mechanics /

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Bibliographic Details
Imprint:	Durnten-Zurich, Switzerland : Trans Tech Publications, Ltd., [2014] ©2014
Description:	1 online resource : illustrations
Language:	English
Series:	Key engineering materials ; v. 618 Key engineering materials ; v. 618.
Subject:	Contact mechanics. Mechanical wear. Contact mechanics. Mechanical wear. Electronic books.
Format:	E-Resource Book
URL for this record:	http://pi.lib.uchicago.edu/1001/cat/bib/11276914

Hidden Bibliographic Details
Other authors / contributors:	Rodriguez-Tembleque, Luis, editor. Aliabadi, M. H., editor.
ISBN:	9783038265429 303826542X 3038351598 9783038351597 9783038351597
Notes:	Includes bibliographical references and indexes. Title page of PDF version (EBSCO, viewed on August 20, 2014).
Summary:	This special topic volume is a compilation of works contributed by experts from the international scientific community in the field of Wear and Contact Mechanics. This volume presents ten papers that cover different aspects of the current areas of research in Wear and Contact Mechanics using new innovative theoretical and computational approaches based on the Finite Element Methods (FEM) and/or the Boundary Element Methods (BEM). A number of topics are addressed, such as anisotropic contact, anisotropic wear, crack-face contact and semi-permeable electric/magnetic boundary conditions in multif.
Other form:	Print version: Rodriguez-Tembleque, Luis. Wear and Contact Mechanics : Special Topic Volume with Invited Peer Reviewed Papers Only. Zurich : Trans Tech Publishers, ©2014 9783038351597

Table of Contents:

The Influence of Equivalent Contact Area Computation in Extended Node to Surface Contact Elements
A Partitioned Formulation for FEM/BEM Coupling in Contact Problems Using Localized Lagrange Multipliers
On Steady Wear States for Monotonic Relative Sliding of Contacting Bodies
Anisotropic Contact and Wear Simulation Using Boundary Elements
Life Assessment in Fretting Fatigue
Transient Dynamic Analysis of Cracked Multi#64257;eld Solids with Consideration of Crack-Face Contact and Semi-Permeable Electric/Magnetic Boundary Conditions
BEM and Tangent Operator Technique Applied to Analysis of Contact Problems
Effect of Friction on the Size of the Near-Tip Contact Zone in a Penny-Shaped Interface Crack
Closed-Form Solution of the Frictional Sliding Contact Problem for an Orthotropic Elastic Half-Plane Indented by a Wedge-Shaped Punch
Nonlinear Time Spectral Analysis for a Dynamic Contact Model with Buckling for an Elastic Plate

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