Limit search to available items
Book Cover
E-book

Title Advances in crack growth modeling : special topic volume with invited peer reviewed papers only / edited by Ferri Aliabadi and Pihua Wen
Published Durnten-Zurich : Trans Tech Publications, [2013]
©2013

Copies

Description 1 online resource (188 pages) : illustrations
Series Key engineering materials, 1013-9826 ; volume 560
Key engineering materials ; v. 560.
Contents Advances in Crack Growth Modeling; Preface / Foreword; Table of Contents; Extraction of Stress Intensity Factors for the Simulation of 3-D Crack Growth with the Generalized Finite Element Method; Multiple Crack Growth and Coalescence in Meshfree Methods with Adistance Function-Based Enriched Kernel; Fatigue Multi-Cracks Growths in Plates Using J-Integral Approach with a Developed Home FEM Software; Multiscale Fracture in Peeling of Highly Oriented Pyrolytic Graphite; Modelling of Crack Propagation in Anisotropic Material Using Single-Domain Boundary Element Method
Dual BEM Formulation Applied to Analysis of Multiple Crack PropagationExtent of the Surface Region in Notched Middle Cracked Tension Specimens; Multiple Crack Propagation with Dual Boundary Element Method in Stiffened and Reinforced Full Scale Aeronautic Panels; Vibration of Functionally Graded Material Plates with Cutouts & Cracks in Thermal Environment; Keywords Index; Authors Index
Summary Volume is indexed by Thomson Reuters BCI (WoS). Crack growth is a complex phenomenon and difficult to model without assumed simplifications. In recent years, there has been an increasing realization that advanced computational methods such as the Finite Element Method, the Boundary Element Method and Mesh Free Methods can be used to simulate crack growth in complex structural parts. This special issue contains original papers written by active researchers in the field of computational fracture mechanics. The aim is to inform those in the fracture mechanics community who might not be at the forefront of computational research of the recent developments and techniques available and the wide range of applications for which solutions are now possible. In the field of computational fracture mechanics, three methods have come to the fore in the modeling of crack growth in complex structural parts: finite element (FEM), boundary element (BEM), and meshfree. This volume is designed to inform those working in the field of the latest research in these areas. Aliabaldi (Imperial College London) and Wen (Queen Mary, University of London) edited the invited peer reviewed papers. A keyword and author index is provided and the full text is also available online
Bibliography Includes bibliographical references and indexes
Notes Online resource; title from PDF title page (ebrary, viewed October 31, 2013)
Subject Fracture mechanics -- Mathematical models
Materials -- Fatigue -- Mathematical models
TECHNOLOGY & ENGINEERING -- Engineering (General)
TECHNOLOGY & ENGINEERING -- Reference.
Fracture mechanics -- Mathematical models
Materials -- Fatigue -- Mathematical models
Form Electronic book
Author Aliabadi, M. H
Wen, Pihua
ISBN 9783038261162
3038261165