A hybrid experimental-finite element method for vibration analysis of structures

Based on Hellinger}Reissner functional and with the inclusion both of displacements and stresses, a hybrid stress formulation of dynamic "nite element method is derived in this paper. In this formulation, the displacements are separated into zeroth displacement modes and high-order incompatible dyna

## Abstract Some __C__^0^‐continuous time‐stepping finite element method is proposed for investigating vibration analysis of elastic multi‐beam structures. In the time direction, the __C__^0^‐continuous Galerkin method is used to discretize the generalized displacement field. In the space direction

The purpose of this paper is to present a simple approach for eliminating the &&dependent'' torsional angles existing in the reduction gears of a gear-branched system so that this system may be modelled as an equivalent straight-geared (or direct-transmitted) system. Then the overall mass matrix, da

A hybrid "nite element method is proposed for the thermo-mechanical analysis of porous materials with pore pressure. Arbitrary n-sided polygonal elements based on the Hellinger}Reissner principle are used to mesh the heterogeneous domain. The validity of the proposed method is veri"ed by a simple an