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dc.contributor.authorKurt, Halil Ibrahim
dc.contributor.authorOduncuogiu, Murat
dc.contributor.authorAsmatulu, Ramazan
dc.identifier.citationKurt, Halil Ibrahim; Oduncuogiu, Murat; Asmatulu, Ramazan. 2016. Wear behavior of aluminum matrix hybrid composites fabricated through friction stir welding process. Journal of Iron and Steel Research, International, vol. 23:no. 10, October 2016:pp 1119–1126en_US
dc.descriptionClick on the DOI link to access the article (may not be free).en_US
dc.description.abstractEffects of friction stir processing (FSP) parameters and reinforcements on the wear behavior of 6061-T6 based hybrid composites were investigated. A mathematical formulation was derived to calculate the wear volume loss of the composites. The experimental results were contrasted with the results of the proposed model. The influences of sliding distance, tool traverse and rotational speeds, as well as graphite (Gr) and titanium carbide (TiC) volume fractions on the wear volume loss of the composites were also investigated using the prepared formulation. The results demonstrated that the wear volume loss of the composites significantly increased with increasing sliding distance, tool traverse speed, and rotational speed; while the wear volume loss decreased with increasing volume fraction of the reinforcements. A minimum wear volume loss for the hybrid composites with complex reinforcements was specified at the inclusion ratio of 50% TiC+ Al2O3, because of improved lubricant ability, as well as resistance to brittleness and wear. New possibilities to develop wear-resistant aluminum-based composites for different industrial applications were proposed.en_US
dc.publisherElsevier Ltd. All rights reserved.en_US
dc.relation.ispartofseriesJournal of Iron and Steel Research, International;v.23:no.10
dc.subjectAluminum alloyen_US
dc.subjectFriction stir processingen_US
dc.subjectHybrid compositeen_US
dc.titleWear behavior of aluminum matrix hybrid composites fabricated through friction stir welding processen_US
dc.rights.holderCopyright © 2016 Central Iron and Steel Research Institute.en_US

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