Effective thickness of laminated glass beams: New expression via a variational approach

The performance of laminated glass, which consists of two or more glass plies bonded together by polymeric interlayers, depends upon shear coupling between the plies through the polymer. This is commonly considered by defining the effective thickness, i.e., the thickness of a monolithic beam with equivalent bending properties in terms of stress and deflection. General expressions have been proposed on the basis of simplified models by Newmark and Wölfel–Bennison, but they are either difficult to apply or inaccurate. Here, a variational approach to the problem is presented. By choosing appropriate shape functions for the laminated-beam deformation, minimization of the strain energy functional gives new expressions for the effective thickness under any constraint- and load-conditions, embracing the classical formulations as particular cases. Comparisons with numerical experiments confirm the better accuracy of the proposed approach with respect to the previous ones.

► Effective thickness of laminated glass is the thickness of a bending-equivalent monolith.
► The most used model by Wölfel–Bennison is accurate only in some cases.
► The enhanced effective thickness approach (EET) is suitable for practical design.
► EET provides accurate results, both for deflection and stress calculation.