INSTITUTIONAL DIGITAL REPOSITORY

Microstructural evolution and strengthening behavior in in-situ magnesium matrix composites fabricated by solidification processing

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dc.contributor.author Nagaraja, C.M.
dc.contributor.author Singh, H.
dc.contributor.author Surappa, M.K.
dc.date.accessioned 2017-05-19T06:24:59Z
dc.date.available 2017-05-19T06:24:59Z
dc.date.issued 2017-05-19
dc.identifier.uri http://localhost:8080/xmlui/handle/123456789/816
dc.description.abstract In-situ magnesium matrix composites with three different matrix materials (including Mg, AZ91 and AE44 Mg-alloys) were fabricated by injecting cross-linked polymer directly into the molten Mg/Mg-alloys, and having it convert to the 2.5 vol% SiCNO ceramic phase using liquid stir-casting method. In-situ chemical reaction took place within the molten slurry tending to produce 42 and 18 vol% Mg2Si crystals in Mg and AE44 matrix composites, respectively but not in AZ91 matrix composite. Microstructural evolution of Mg2Si crystals was discussed on the basis of availability of heterogeneous nucleation sites and amount of Al-atoms in the molten slurry. The observed micro-hardness and yield strengths are enhanced by factor of four to three as compared to their unreinforced counterparts, and Taylor strengthening was found to be the predominant strengthening mechanism in magnesium and AE44 matrix composites. Summation model predicted the yield strengths of the fabricated composites more preciously when compared to Zhang and Chen, and modified Clyne models. en_US
dc.language.iso en_US en_US
dc.subject Metal matrix composites (MMCs) en_US
dc.subject In-situ processing en_US
dc.subject Polymer derived ceramics en_US
dc.subject Microstructural evolution en_US
dc.subject Strengthening mechanisms en_US
dc.title Microstructural evolution and strengthening behavior in in-situ magnesium matrix composites fabricated by solidification processing en_US
dc.type Article en_US


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