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Damping behavior of Al/SiC functionally graded and metal matrix composites

Emre Acar, Murat Aydın

2021Journal of Asian Ceramic Societies25 citationsDOIOpen Access PDF

Abstract

Al/SiC functionally graded and metal-matrix composites were investigated through dynamic mechanical analyzer as a function of vibrating frequencies. It was found that internal frictions were strongly dependent on material type and vibrating frequency. Tan δ reached 30.4 × 10–3 and 21.2 × 10–3in FGM and MMC, respectively, at vibrating frequency of 1 Hz. The damping capacity decreased as the frequency increased to 10 Hz and 30 Hz. Storage moduli were 172 GPa and 144 GPa for FGMs and MMCs, respectively, at 1 Hz. Similar to Tan δ, storage moduli of the both materials were more sensitive to frequency change at higher temperatures. In general, higher storage moduli and damping capacities were observed in FGMs compared to MMCs.

Topics & Concepts

Materials scienceComposite materialModuliDamping capacityMetalDynamic mechanical analysisMatrix (chemical analysis)PolymerMetallurgyPhysicsQuantum mechanicsAlloyAluminum Alloys Composites PropertiesAdvanced ceramic materials synthesisComposite Structure Analysis and Optimization
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