Crack tip dislocation distribution generated by external sources

Crack tip shielding by dislocations is an essential feature of the modeling of semi-brittle crack propagation and the brittle to ductile transition. The stress field, in the elementary configuration where a single dislocation interacts with a crack, is obtained by two independent methods, at two dif

A mathematical formulation is developed for a long crack (mode III) with two symmetrical screw dislocation pileups inclined to the crack by an angle 4. Dislocation free zones (DFZ) are allowed at the crack up. The resulting series of equations are solved numerically. The effect of the inclination an

Ah&act--Dislocation layers have been exploited to determine stress distribution in the neighbourhood of an external crack opened by two symmetric rigid inclusions.

Ahdrae-A geueral method for the numerical solution of the singular integral equation describing the curved crack problem is presented. The basic idea is the approximation of the dislocation function by a polynomial divided by a weight function. Combined with the collocation method this leads to a si

## Abstract Extracranial patterns of scalp potentials and magnetic fields, as measured with electro‐ and magnetoencephalography (EEG, MEG), are spatially widespread even when the underlying source in the brain is focal. Therefore, loss in signal magnitude due to cancellation is expected when multip