Residual Stress Determination in Orthotropic Composites by Displacement Measurements Near Through Hole

Abstract

Novel method for a determination of residual stresses in orthotropic composite plates based on local displacement measurements by electronic speckle-pattern interferometry is developed and verified. The values of hole diameter increments in principal residual stress directions serve as initial experimental deformation. The technique is based on analytical solution of S.G. Lekhnitsky, which describes a stress concentration along the edge of central open hole in rectangular orthotropic plate under one-axis tension in arbitrary direction. A situation when principal directions of residual stresses coincide with principal axes of anisotropy is considered. The relations, which connect initial experimental data with residual stress components, are unequivocally solution of the properly posed inverse problem. An availability of interference fringe patterns, a quality of which is high enough for reliable recognizing of fringe orders at the hole edge immediately, is the essential experimental foundation of the approach developed. The accuracy of the proposed method has been assessed by two different ways. The results of residual stresses determination in rectangular composite plate are presented.