Finite Element Analysis for Optimal Heating Condition in Thermal Stress Cleaving of Brittle Materials Using Laser Irradiation
p.389
p.389
Detection of Plural Cracks in an Infinite Plate by PSO Algorithm
p.393
p.393
Analysis of Fracture Behavior in Polymer Matrix Composites by Infrared Thermography
p.397
p.397
Novel Methods for Assessment of Three-Dimensional Constitutive Properties for Composites
p.401
p.401
Accurate Solutions of Stress Intensity Factors of Standard Fracture Test Specimens
p.405
p.405
Temperature and Geometry Dependence of Fracture Toughness in "Euro Fracture Dataset"
p.409
p.409
An Analytical Solution for Dynamic Stress Intensity, Kd, under Impact Loading
p.413
p.413
Crack Width Evolution of R/C Structures Subject to Corrosion and Fatigue
p.417
p.417
Low Cycle Fatigue of Cast γ-TiAl Based Alloys at High Temperature
p.421
p.421
Accurate Solutions of Stress Intensity Factors of Standard Fracture Test Specimens
Abstract:
Practically exact solutions of stress intensity factor for several two-dimensional standard specimens were calculated and shown in numeric tables. The solutions were confirmed to converge until 6 significant figures through a systematical computation of discretization analysis. The convergence analyses were carried out by using a general purpose program based on a body force method.
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Periodical:
Key Engineering Materials (Volumes 452-453)
Pages:
405-408
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Online since:
November 2010
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© 2011 Trans Tech Publications Ltd. All Rights Reserved
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