Conceptual extension of stress intensity to an angled defect 1 : an edge notch with arbitrary included angle
Technology reports of the Yamaguchi University Volume 5 Issue 5
Page 277-285
published_at 1996-12
Title
Conceptual extension of stress intensity to an angled defect 1 : an edge notch with arbitrary included angle
Creators
Iino Makio
Source Identifiers
Creator Keywords
stress singularity factor
strength of singularity
edge notch
conformal mapping
Schwartz-Christoffel transformation
Complex variable methods are applied to the plane elastic problems of semi-infinite sheet with a sharp edge notch of an arbitrary included angle 2β. The concept of the stress intensity in a crack problem is extended to the externally cut V-shaped notch. The difficulty of the problem would lie in the unavoidable introduction of a mapping function with singularities of branch-point type and related complex potentials, which is shown to be resolved by a power series development with expansion coefficients, which depend on the boundary-describing parameter, being smoothly continued from the traction-free boundary region to the local zone characterized by a stress singularity. General solutions for the stresses and the stresses local to the notch tip are given. In the light of the foregoing arguments the implications of the Westergaard solution for a crack are discussed.
Languages
eng
Resource Type
departmental bulletin paper
Publishers
山口大学工学部
Date Issued
1996-12
File Version
Version of Record
Access Rights
open access
Relations
[ISSN]0386-3433
[NCID]AA0086073X
Schools
工学部