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Heat dissipative mechanical damping properties of EPDM rubber composites including hybrid fillers of aluminium nitride and boron nitride

Jung Keun Cho, Hanna Sun, Hee Won Seo, June-Young Chung, Mina Seol, Sung‐Hoon Kim, Ra-Seong Kim, In‐Kyung Park, Jonghwan Suhr, Joon Chul Park, Heon Seob Jung, Hyun Ho Park, Hyouk Ryeol Choi, Jae‐Do Nam

2020Soft Matter33 citationsDOI

Abstract

of EPDM/AlN/BN, representing reductions of 33 and 52%, respectively. Moreover, the damping coefficient of EPDM/AlN/BN was greatly increased to 0.5 of at 50 °C, compared to 0.03 of neat EPDM. These excellent performances likely stem from the effective packing of AlN/BN hybrid fillers, which could induce facile energy transfer and effective energy dissipation by the sliding movement of the adjacent hybrid fillers in the EPDM matrix.

Topics & Concepts

Boron nitrideMaterials scienceComposite materialAluminiumNatural rubberDissipative systemNitrideBoronChemistryOrganic chemistryQuantum mechanicsLayer (electronics)PhysicsPolymer Nanocomposites and PropertiesDielectric materials and actuatorsTribology and Wear Analysis
Heat dissipative mechanical damping properties of EPDM rubber composites including hybrid fillers of aluminium nitride and boron nitride | Litcius