Add to ORKGBoundary collocation for two dimensional stress analysis of cracks emanating from or from near holes with various shape
The Boundary Force Method (BFM) was formulated for the two-dimensional stress analysis of complex cr...
Stress-intensity factors, calculated by a three-dimensional finite-element analysis, for shallow or ...
A substructuring technique, originally developed for the efficient reanalysis of structures, is inco...
An improved method of boundary collocation was developed and applied to the two-dimensional stress a...
A boundary collocation method is developed for analyzing cracked thin plates. Complex stress functio...
Elastic displacements for various edge-cracked plate specimens using boundary collocation computing ...
A two dimensional, boundary collocation stress analysis was used to analyze various round compact sp...
Two basic forms of analysis, one treating stresses around arbitrarily loaded circular cracks, the ot...
A boundary collocation scheme based on Wilson solution for an internal crack was developed for use i...
The opening mode stress intensity factor and the associated crack mouth displacement are comprehensi...
The stress intensity factors (SIFs) for the cracks emanating from a hole in an anisotropic finite pl...
A mapping-collocation method was developed for the elastostatic stress analysis of finite, anisotrop...
Stress-intensity factors for single-edge cracks in plate specimens subject to splitting force by bou...
A technique consisting of freezing photo-elasticity and a numerical method was used to obtain stress...
Results of planar boundary collocation analysis are given for ring segment (C shaped) specimens with...
The Boundary Force Method (BFM) was formulated for the two-dimensional stress analysis of complex cr...
Stress-intensity factors, calculated by a three-dimensional finite-element analysis, for shallow or ...
A substructuring technique, originally developed for the efficient reanalysis of structures, is inco...
An improved method of boundary collocation was developed and applied to the two-dimensional stress a...
A boundary collocation method is developed for analyzing cracked thin plates. Complex stress functio...
Elastic displacements for various edge-cracked plate specimens using boundary collocation computing ...
A two dimensional, boundary collocation stress analysis was used to analyze various round compact sp...
Two basic forms of analysis, one treating stresses around arbitrarily loaded circular cracks, the ot...
A boundary collocation scheme based on Wilson solution for an internal crack was developed for use i...
The opening mode stress intensity factor and the associated crack mouth displacement are comprehensi...
The stress intensity factors (SIFs) for the cracks emanating from a hole in an anisotropic finite pl...
A mapping-collocation method was developed for the elastostatic stress analysis of finite, anisotrop...
Stress-intensity factors for single-edge cracks in plate specimens subject to splitting force by bou...
A technique consisting of freezing photo-elasticity and a numerical method was used to obtain stress...
Results of planar boundary collocation analysis are given for ring segment (C shaped) specimens with...
The Boundary Force Method (BFM) was formulated for the two-dimensional stress analysis of complex cr...
Stress-intensity factors, calculated by a three-dimensional finite-element analysis, for shallow or ...
A substructuring technique, originally developed for the efficient reanalysis of structures, is inco...