VIBRATION ANALYSIS OF LAMINATED BEAMS USING AN ITERATIVE SMEARED LAMINATE MODEL

A new model is presented for the dynamic analysis of a laminated circular ring segment. The di!erential equations which govern the free vibrations of a circular ring segment and the associated boundary conditions are derived by Hamilton's principle having consideration for the bending and shear defo

A six-node, plane-stress mixed finite element model has been developed by using Hamilton's energy principle for the natural vibrations of laminated composite beams. Continuity of the transverse stress and displacement fields has been enforced through the thickness of the laminated beam in the formul

This paper describes a theoretical and experimental development of a laminated spatially distributed piezoelectric torsional vibration actuator for a clamped-free cantilever beam. The strain energy transferred from a piezoelectric film actuator to a substructure is derived as a function of actuator

A previously published discrete-layer shear deformation theory is used to analyze free vibration of laminated plates. The theory includes the assumption that the transverse shear strains across any two layers are linearly dependent on each other. The theory has the same dependent variables as first