Dynamic response of a pseudoelastic shape memory alloy beam to a moving load

This paper examines the e!ectiveness of pseudoelastic shape memory alloy (SMA) wires for passive damping of #exural vibrations of a clamped}free beam with a tip mass. A "nite-element model of the system is developed and validated with experimental results. The SMA behavior is modelled using amplitud

The problem of transverse vibrations of homogeneous isotropic rotating beams due to the passage of dierent types of loads is of considerable practical interest. Using analytical and numerical methods, this paper investigates the stochastic dynamic response of a rotating simply supported beam subject

Shape Memory Alloys (SMAs) are widely studied as new materials with potential for use in various passive or active vibration isolation systems. Up to now, few papers deal with a precise description of their proper dynamic behaviour. However, it is important to clearly understand the dissipation mech

The transverse vibration of a beam with intermediate point constraints subject to a moving load is analyzed by using the Euler beam theory and the assumed mode method. The point constraints in the form of supports are assumed to be linear springs of large stiffness. Results of numerical simulations

Based on the physical properties and sectional dimensions of a conventional channel beam, a new channel beam (called the ''iso-moment-of-inertia'' beam), with area moment of inertia about the unsymmetrical principal axis of the cross-section equal to that about the symmetrical one, is obtained. The