Affiliation:
1. Faculty of Mechanical Engineering, Niš
2. Faculty of Technical Sciences, Novi Sad
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 compound 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 encompasses the prediction of hysteresis
loss, i. e. dissipated energy within the rubber, by finite element analysis
and application of a modern visco-plastic 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.
Funder
Ministry of Education, Science and Technological Development of the Republic of Serbia
Publisher
National Library of Serbia
Subject
Renewable Energy, Sustainability and the Environment
Cited by
31 articles.
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