Add to ORKGThis work formulates a method for the modeling of material damping characteristics in distributed parameter models which may be easily applied to models such as rod, plate, and beam equations. The general linear boundary value vibration equation is modified to incorporate hysteresis effects represented by complex stiffness using the transfer function approach proposed by Golla and Hughes. The governing characteristic equations are decoupled through separation of variables yielding solutions similar to those of undamped classical theory, allowing solution of the steady state as well as transient response. Example problems and solutions are provided demonstrating the similarity of the solutions to those of the classical theories and transient...
The subject of this investigation is the dynamic behavior of a composite beam consisting of a main e...
A numerical approximation scheme for the estimation of functional parameters in Euler-Bernoulli mode...
Theoretical and numerical results are presented for inverse problems involving estimation of spatial...
A partial differential equation model of a cantilevered beam with a tip mass at its free end is used...
©1986 ASMESubmitted for presentation at the 1986 ASME Winter Annual Meeting.The authors have suggest...
Damping is present in all dynamic systems. In one way or another energy is being dissipated in the s...
AbstractIn this paper, a non-local damping model including time and spatial hysteresis effects is us...
From the nano scale to the macro scale, large models are used to simulate and predict the responses ...
Experimental observations have shown that the dissipation per cycle in many materials does not depen...
Characterization of damping forces in a vibrating structure has long been an active area of research...
A method is presented to accurately and economically calculate steady state frequency responses base...
A frequency domain system modelling technique is developed for mechanical systems. The technique is ...
Characterization of damping forces in a vibrating structure has long been an active area of research...
Thin-walled, e. g. shells and plates, and slender, e. g. beams, structures are widespread in mechani...
The numerical modeling of highly damped viscoelastic materials is critical for aerospace application...
The subject of this investigation is the dynamic behavior of a composite beam consisting of a main e...
A numerical approximation scheme for the estimation of functional parameters in Euler-Bernoulli mode...
Theoretical and numerical results are presented for inverse problems involving estimation of spatial...
A partial differential equation model of a cantilevered beam with a tip mass at its free end is used...
©1986 ASMESubmitted for presentation at the 1986 ASME Winter Annual Meeting.The authors have suggest...
Damping is present in all dynamic systems. In one way or another energy is being dissipated in the s...
AbstractIn this paper, a non-local damping model including time and spatial hysteresis effects is us...
From the nano scale to the macro scale, large models are used to simulate and predict the responses ...
Experimental observations have shown that the dissipation per cycle in many materials does not depen...
Characterization of damping forces in a vibrating structure has long been an active area of research...
A method is presented to accurately and economically calculate steady state frequency responses base...
A frequency domain system modelling technique is developed for mechanical systems. The technique is ...
Characterization of damping forces in a vibrating structure has long been an active area of research...
Thin-walled, e. g. shells and plates, and slender, e. g. beams, structures are widespread in mechani...
The numerical modeling of highly damped viscoelastic materials is critical for aerospace application...
The subject of this investigation is the dynamic behavior of a composite beam consisting of a main e...
A numerical approximation scheme for the estimation of functional parameters in Euler-Bernoulli mode...
Theoretical and numerical results are presented for inverse problems involving estimation of spatial...