1. PREDICTION OF HEAT GENERATION IN RUBBER OR RUBBER-METAL SPRINGS.
- Author
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BANIĆ, Milan S., STAMENKOVIĆ, Dušan S., MILTENOVIĆ, Vojislav Dj., MILOŠEVIĆ, Miloš S., MILTENOVIĆ, Aleksandar V., DJEKIĆ, Petar S., and RACKOV, Milan J.
- Subjects
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RUBBER , *TEMPERATURE , *CYCLIC loads , *THERMAL conductivity , *HYSTERESIS loop , *ENERGY dissipation - Abstract
The temperature of rubber or rubber-metal springs increases under cyclic loading, due to hysteresis losses and low rubber thermal conductivity. Hysteresis losses correspond to energy dissipation from the rubber, which is primarily converted into heat. This well-known phenomenon, called heat build-up, is the primary reason for rubber aging. Increase in temperature within the rubber com-pound leads to degradation of its physical and chemical properties, increase in stiffness and loss of damping capability. This paper presents a novel procedure of heat generation prediction in rubber or rubber-metal springs. The procedure en-compasses the prediction of hysteresis loss, i. e. dissipated energy within the rubber, by finite element analysis and application of a modern viscoplastic rubber constitutive model. The obtained dissipated energy was used as an input for transient thermal analysis. Verification of the proposed procedure was performed by comparison of simulation results with experimentally obtained data during the dynamic loading of the rubber specimen. The proposed procedure is highly computationally efficient and it enables time integration, which can be problematic in coupled mechanical thermal analysis. [ABSTRACT FROM AUTHOR]
- Published
- 2012
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