Transverse Shear Effects in Bimodular Composite Laminates

Abstract

A closed-form solution for the Timoshenko-type shear correction coefficient (K²) governing the deflection of bimodular composite laminates in cylindrical bending is presented. The bending- stress distribution for a laminate constructed of bimodular materials (which have different elastic moduli in tension and compression) is used in the two-dimensional equilibrium equation to obtain the transverse shear-stress distribution. This shear-stress distribution is used to obtain expressions for the shear correction coefficient (based on equrvalent shear strain energy) and the maximum dimensionless transverse shear stress (τ_xz) _max. Finally, the effects of the elastic-constant ratios on the neutral-surface location and shear correction coefficient for laminates consisting of either unimodular or bimodular materials are studied.