Add to ORKGThis report deals with the determination of stress intensity factors, T-stress, and weight function for the double-edge-cracked plate by application of the boundary collocation procedure. In the first part the fracture mechanical parameters are computed for several relative crack depths and different ratios of plate length to plate width and compiled in the form of tables. The second part deals with the first derivative of the weight function at the crack mouth which is used in the literature for application of the Petroski-Achenbach procedure. (orig.)Available from FIZ Karlsruhe / FIZ - Fachinformationszzentrum Karlsruhe / TIB - Technische InformationsbibliothekSIGLEDEGerman
Failure of cracked components is governed by the stresses in the vicinity of the crack tip. The sing...
The present paper discusses the formulation of weight functions for inclined edge cracks in finite w...
A simple representation for the crack-face displacement is employed to compute a weight function sol...
SIGLETIB: ZA 5141(4791) / FIZ - Fachinformationszzentrum Karlsruhe / TIB - Technische Informationsbi...
The failure of cracked components is governed by the stresses in the vicinity of the crack tip. The ...
A.. / ' / A boundary-value-collocation procedure was applied in conjunction with the Willia...
This paper presents the application of the weight function method for the calculation of elastic T-s...
A boundary collocation method is developed for analyzing cracked thin plates. Complex stress functio...
The stress intensity factor is one of the most important concepts in fracture mechanics because of s...
Failure of cracked components is governed by the stresses in the vicinity of the crack tip. The sing...
The first regular stress term of the crack-tip stress field, the so-called T-stress, has an influenc...
182-187The use of a special finite element technique for the computation of stress intensity facto...
This paper presents the application of the weight function method for the calculation of stress inte...
This paper presents the application of the weight function method for the calculation of elastic T-s...
An improved method of boundary collocation was developed and applied to the two-dimensional stress a...
Failure of cracked components is governed by the stresses in the vicinity of the crack tip. The sing...
The present paper discusses the formulation of weight functions for inclined edge cracks in finite w...
A simple representation for the crack-face displacement is employed to compute a weight function sol...
SIGLETIB: ZA 5141(4791) / FIZ - Fachinformationszzentrum Karlsruhe / TIB - Technische Informationsbi...
The failure of cracked components is governed by the stresses in the vicinity of the crack tip. The ...
A.. / ' / A boundary-value-collocation procedure was applied in conjunction with the Willia...
This paper presents the application of the weight function method for the calculation of elastic T-s...
A boundary collocation method is developed for analyzing cracked thin plates. Complex stress functio...
The stress intensity factor is one of the most important concepts in fracture mechanics because of s...
Failure of cracked components is governed by the stresses in the vicinity of the crack tip. The sing...
The first regular stress term of the crack-tip stress field, the so-called T-stress, has an influenc...
182-187The use of a special finite element technique for the computation of stress intensity facto...
This paper presents the application of the weight function method for the calculation of stress inte...
This paper presents the application of the weight function method for the calculation of elastic T-s...
An improved method of boundary collocation was developed and applied to the two-dimensional stress a...
Failure of cracked components is governed by the stresses in the vicinity of the crack tip. The sing...
The present paper discusses the formulation of weight functions for inclined edge cracks in finite w...
A simple representation for the crack-face displacement is employed to compute a weight function sol...