Buckling of thin-walled compression members with shear lag using spline finite member element method

Based on the displacement variational principle, a general method, called the spline ®nite member element method, is developed for lateral buckling analysis of thin-walled members. A transformed B 3 -spline function presented in the paper is used to simulate the longitudinal warping displacement ®el

In this paper, the outlined model is extended to cover the dynamics of thin-walled members with open or closed cross-section, making use of Hamilton's principle. Based on the displacement variational principle, a systematic method, called the spline finite member element method, is developed for vib

A previously presented model is extended to cover the dynamics of thin-walled members with open and/or closed cross-section, making use of Hamilton's principle. Based on the displacement variational principle, a discrete method, called the ®nite member element method, is developed for vibration anal

The purpose of this paper is to develop a simple and approximate method with sufficient accuracy for predicting the effect of shearing strains in the middle surface of the walls, which reflect the shear lag phenomenon, on the lateral buckling of thin-walled open member. An energy equation for the la

The purpose of this paper is to develop a general method, called the spline ®nite member element method, for predicting the eect of shearing strains in the middle surface of the walls on the buckling of thin-walled members with any cross-section because the classical theory of thin-walled members is