Thermal flexure of an infinite plate with a doubly periodic array of holes

Making use of the basic theorem of the pole and zero points, we first seek the general solutions of an infinite sheet weakened by a pair of radial cracks emanating from a circular hole subjected to concentrated forces P, T and Q. Employing the same analysis as in previous papers, then we can find th

objective of the present paper is to use the basic theorem of Jacobi elliptic functions and residues to find the general solutions of the stress intensity factor of a plate with doubly periodic cracks subjected to a pair of concentrated couples Mb and M, on the faces of each crack. In this paper th

The problem of brittle failure of an isotropic homogeneous plate perforated by a circular hole as a result of the development of an array of small equal surface cracks was investigated. The plate was loaded by a uniform uniaxial stress at an arbitrary inclination with respect to the system of the cr

In accordance with two different methods, we shall first prove that the dynamic stress intensity factor of mode I of an infinite sheet with a central crack propagating at constant velocity is independent of material constants and the uniform velocity. Then. we may give the general solutions to the m