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Two-dimensional mathematical model of nonstationary heat conduction during thermal vulcanization of elastomeric coatings on a fabric backing

A two-dimensional mathematical model of nonstationary heat conduction during thermal vulcanization of elastomeric coatings on a fabric backing is examined under convective heat exchange with the ambient medium. As compared with a corresponding one-dimensional model, the solution obtained for the two...

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Published in:	Chemical and petroleum engineering 2010-05, Vol.46 (1-2), p.14-16
Main Authors:	Avaev, A. A., Osipov, Yu. R., Pavlov, V. V.
Format:	Article
Language:	English
Subjects:	Chemistry Chemistry and Materials Science Geotechnical Engineering & Applied Earth Sciences Industrial Chemistry/Chemical Engineering Industrial Pollution Prevention Mineral Resources
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description	A two-dimensional mathematical model of nonstationary heat conduction during thermal vulcanization of elastomeric coatings on a fabric backing is examined under convective heat exchange with the ambient medium. As compared with a corresponding one-dimensional model, the solution obtained for the two-dimensional mathematical model of nonstationary heat conduction makes it possible to improve the quality of vulcanization of the final product, and lower the effect of incomplete or excessive vulcanization.
doi_str_mv	10.1007/s10556-010-9282-0
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subjects	Chemistry Chemistry and Materials Science Geotechnical Engineering & Applied Earth Sciences Industrial Chemistry/Chemical Engineering Industrial Pollution Prevention Mineral Resources
title	Two-dimensional mathematical model of nonstationary heat conduction during thermal vulcanization of elastomeric coatings on a fabric backing
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