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IssuesArchive of Issues2016-3pp.298-307

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A.E. Belkin and V.K. Semenov, "Theoretical and Experimental Analysis of the Contact between a Solid-Rubber Tire and a Chassis Dynamometer," Mech. Solids. 51 (3), 298-307 (2016)
Year 2016 Volume 51 Number 3 Pages 298-307
DOI 10.3103/S0025654416030067
Title Theoretical and Experimental Analysis of the Contact between a Solid-Rubber Tire and a Chassis Dynamometer
Author(s) A.E. Belkin (Bauman Moscow State Technical University, ul. 2-ya Baumanskaya 5, Moscow, 105005 Russia, a_belkin@newmail.ru)
V.K. Semenov (Bauman Moscow State Technical University, ul. 2-ya Baumanskaya 5, Moscow, 105005 Russia)
Abstract We consider the problem of modeling the test where a solid-rubber tire runs on a chassis dynamometer for determining the tire rolling resistance characteristics. We state the problem of free steady-state rolling of the tire along the test drum with the energy scattering in the rubber in the course of cyclic deformation taken into account. The viscoelastic behavior of the rubber is described by the Bergström-Boyce model whose numerical parameters are experimentally determined from the results of compression tests with specimens. The finite element method is used to obtain the solution of the three-dimensional viscoelasticity problem. To estimate the adequacy of the constructed model, we compare the numerical results with the results obtained in the solid-rubber tire tests on the Hasbach stand from the values of the rolling resistance forces for various loads on the tire.
Keywords solid-rubber tire, chassis dynamometer, contact, steady rolling, rubber viscoelasticity, energy dissipation, rolling resistance
References
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8.  J. S. Bergström and M. C. Boyce, "Constitutive Modeling of the Large Strain Time-Dependent Behavior of Elastomers," J. Mech. Phys. Solids 46 (5), 931-954 (1998).
9.  J. S. Bergström and M. C. Boyce, "Mechanical Behavior of Particle Filled Elastomers," Rubber Chem. Techn. 72 (4), 633-656 (1999).
10.  V. K. Semenov and A. E. Belkin, "Mathematical Model of Viscoelastic Behavior of Rubber under Cyclic Loading," Izv. Vyssh. Uchebn. Zaved. Mashinostr., No. 2, 46-51 (2014).
11.  A. E. Belkin, I. Z. Dashtiev, and V. K. Semenov, "Mathematical Model of Viscoelastic Behavior of Polyurethane in Compression with Moderately High Strain Rates," Vestink MGTU im. Baumana. Ser. Mashinostr., No. 6, 44-58 (2014).
Received 10 December 2015
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