Abstract
A rubber (Neoprene, GR) cylinder is subjected to a repeatedly cyclic compressive force by means of an electrodynamic shaker. In the experimental investigation the temperatures at various locations inside the cylinder have been measured. With the help of a mathematical model simulating the stiffness and damping roles of rubber, one can attempt the solution of the heat conduction equation that describes the temperature field inside the rubber specimen. The matching between experimental and analytical approaches in predicting the trend of behaviour of the temperature field inside the vibrating rubber cylinder validates the mathematical model in simulating the stiffness and damping coefficients of rubber.
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