Cracked beam under influence of dynamic electromagnetic force

Dynamic and ductile fracture of edge-cracked beam made of Type 304 stainless steel under electromagnetic bending force is studied experimentally as well as theoretically. In the theoretical part, we calculate the extended J-integral with the effect of both electromagnetic force and thermal stress ca

Abatraet-The finite element method with normal quadrilateral plate elements is used for the determination of the bending compliance of orthogonal full and open hollow section beams with transverse cracks. Computed results are compared with those from theory for the full rectangular sections and with

The dynamic behaviour of a beam with numerous transverse cracks is studied. Based on the equivalent rotational spring model of crack and the transfer matrix for beam, the dynamic sti!ness matrix method has been developed for spectral analysis of forced vibration of a multiple cracked beam. As a part

The parametric instability of a beam under electromagnetic excitation was investigated experimentally and analytically. In experiment an electromagnetic device, acting like a spring with alternating sti!ness, was designed to parametrically excite the beam. The frequency and the amplitude of the exci