Geometrically non-linear analysis of symmetrically laminated composite and sandwich shells with a higher-order theory and C⁰ finite elements

Abstract

A C⁰ continuous displacement based finite element formulation of a higher order theory for linear and geometrically non-linear analysis which accounts for large displacements in the sense of von Karman of symmetrically laminated composite and sandwich shells under transverse loads is presented. The displacement model accounts for non-linear and constant variation of tangential and transverse displacement components, respectively, through the shell thickness. The assumed displacement model climinates the use of shear correction coefficients. The discrete element chosen is a nine-node quadrilateral element with nine degress of freedom per node. The accuracy of the present formulation is then established by comparing the present results with the available analytical. closed-form two-dimensional solutions, three-dimensional elasticity solutions and other finite element solutions. Some new results are generated for future comparisons to and evaluations of sandwich shells.