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The study of fatigue behavior of thermally aged rubber based on natural rubber and butadiene rubber

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dc.title The study of fatigue behavior of thermally aged rubber based on natural rubber and butadiene rubber en
dc.contributor.author Kratina, Ondřej
dc.contributor.author Stoček, Radek
dc.contributor.author Musil, Bruno
dc.contributor.author Johlitz, Michael
dc.contributor.author Lion, Alexander
dc.relation.ispartof Constitutive Models for Rubber X - Proceedings of the 10th European Conference on Constitutive Models for Rubber, ECCMR X 2017
dc.identifier.isbn 9781138030015
dc.date.issued 2017
dc.citation.spage 365
dc.citation.epage 370
dc.event.title 10th European Conference on Constitutive Models for Rubber, ECCMR X 2017
dc.event.location Munich
utb.event.state-en Germany
utb.event.state-cs Německo
dc.event.sdate 2017-08-28
dc.event.edate 2017-08-31
dc.type conferenceObject
dc.language.iso en
dc.publisher CRC Press/Balkema
dc.identifier.doi 10.1201/9781315223278-64
dc.relation.uri https://www.taylorfrancis.com/books/e/9781351840408/chapters/10.1201%2F9781315223278-58
dc.description.abstract This work is focused on investigation of the influence of thermal aging on fatigue behavior of carbon black filled rubber compounds which have been based on Natural Rubber (NR), Butadiene Rubber (BR) and their blend with ratio 50/50. The thermal aging was performed in thermal chamber at varied temperatures 30, 70 and 110°C for 720 hours. Firstly, the influence of thermal aging on mechanical behavior under quasi-static tensile test followed by Dynamic Mechanical Analysis (DMA) has been investigated. The fatigue behavior under sinusoidal waveform loading conditions has quantitatively been analyzed by using of dynamic testing equipment Tear and Fatigue Analyzer. The aim of this work was to investigate the influence of thermal aging on the fatigue behavior of rubber based on varied rubber types to understand the relationship between the thermal degradative processes occurred in rubber matrix under thermal aging and fatigue life. From the experimental work it was concluded based on all used testing methods, that the presence of BR rubber enhances the resistance against thermal aging and thus could be used as an efficient component reducing the aging degradation in rubber blend systems. © 2017 Taylor & Francis Group, London, UK. en
utb.faculty University Institute
dc.identifier.uri http://hdl.handle.net/10563/1008261
utb.identifier.rivid RIV/70883521:28610/17:63518258!RIV18-MSM-28610___
utb.identifier.obdid 43877962
utb.identifier.scopus 2-s2.0-85047264627
utb.source d-scopus
dc.date.accessioned 2018-11-01T09:32:11Z
dc.date.available 2018-11-01T09:32:11Z
utb.ou Centre of Polymer Systems
utb.contributor.internalauthor Kratina, Ondřej
utb.contributor.internalauthor Stoček, Radek
utb.fulltext.affiliation O. Kratina & R. Stoček Centre of Polymer Systems, University Institute, Tomas Bata University in Zlín, Zlín, Czech Republic B. Musil, M. Johlitz & A. Lion Institute of Mechanics, Department of Aerospace Engineering, University of the Bundeswehr Munich, Neubiberg, Germany
utb.fulltext.dates -
utb.fulltext.references Bauer, D.R., Baldwin, J.M., Ellwood, K.R., 2007, Rubber aging in tires. Part 2: Accelerated oven aging tests, Polymer Degradation and Stability 92, 110–117. Ellul, M.D., 2012, Mechanical Fatigue. In: Gent AN. Engineering with Rubber—How to Design Rubber Components. 3rd ed.: Hanser Publishers, 139–176. Frederick, R.E., 1982, Science and technology of Rubber, Rubber Division of American Chemical Society. Huang, D., LaCount, B.J., Castro, J.M., Ignatz-Hoover, F., 2001, Development of a service-simulating, accelerated aging test method for exterior tire rubber compounds I. Cyclic aging, Polymer Degradation and Stability 74, 353–362. Liu, J., Li, X., Xu, L., Zhang, P., 2016, Investigation of aging behavior and mechanism of Nitrile-Butadiene Rubber (NBR) in the accelerated thermal aging environment. Polymer Testing, 54, 59–66. Lorenz, H., Kluppel, M., 2012. Microstructure-based Modelling of Arbitrary Deformation Histories of Filler-reinforced Elastomers, Journal of Mechanics and Physics of Solids, 60, 1842. Persson, B.N.J, et al., 2005, Crack propagation in rubber-like materials. Journal of Physics: Condensed Matter, 17, 1071–1142. Saintier, N, Cailletaud G, Piques, R., 2011, Cyclic loadings and crystallization of natural rubber: an explanation of fatigue crack propagation reinforcement under a positive loading ratio. Materials Science and Engineering, 528, 1078–1086. Stevenson, A., Campion R., 2012, Durabiliy. In: Gent AN. Engineering with Rubber—How to Design Rubber Components. 3rd ed.: Hanser Publishers, 139–176. Stoček, R., Kratina, O., Ghosh, P., Maláč, J., Mukhopadhyay, R., 2017, Influence of thermal ageing process on the crack propagation of rubber used for tire application. In: W. Grellmann, B. Langer: Deformation and Fracture Behaviour of Polymer Materials. Springer, 305–316. Woo, Ch.S., Park, H.S., 2011, Useful Lifetime Prediction of Rubber Component, Engineering Failure Analysis, 18, 1645–1651.
utb.fulltext.sponsorship This article was written with the support of Operational Program Research and Development for Innovations co-funded by the European Regional Development Fund (ERDF) and national budget of the Czech Republic, within the framework of the project CPS—strengthening research capacity (reg. number: CZ.1.05/2.1.00/19.0409) as well supported by the Ministry of Education, Youth and Sports of the Czech Republic—Program NPU I (LO1504) and by the joint project of the Bavarian State Ministry of Education, Science and the Arts and the Ministry of Education, Youth and Sports of the Czech Republic no. 8E15B007.
utb.scopus.affiliation Centre of Polymer Systems, University Institute, Tomas Bata University in Zlín, Zlín, Czech Republic; Institute of Mechanics, Department of Aerospace Engineering, University of the Bundeswehr Munich, Neubiberg, Germany
utb.fulltext.projects CZ.1.05/2.1.00/19.0409
utb.fulltext.projects LO1504
utb.fulltext.projects 8E15B007
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