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Effect of filler size distribution on the mechanical and physical properties of alumina-filled silicone rubber
by
Qi, Shuhua
, Wang, Caifeng
, Zhou, Wenying
, An, Qunli
, Yu, Demei
in
Alumina
/ Applied sciences
/ Composites
/ Dynamic testing
/ Exact sciences and technology
/ Forms of application and semi-finished materials
/ Materials
/ Mechanical properties
/ Methods
/ Physical properties
/ Polymer industry, paints, wood
/ Properties
/ Rubber
/ Silicone rubber
/ Silicones
/ Technology of polymers
2008
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Effect of filler size distribution on the mechanical and physical properties of alumina-filled silicone rubber
by
Qi, Shuhua
, Wang, Caifeng
, Zhou, Wenying
, An, Qunli
, Yu, Demei
in
Alumina
/ Applied sciences
/ Composites
/ Dynamic testing
/ Exact sciences and technology
/ Forms of application and semi-finished materials
/ Materials
/ Mechanical properties
/ Methods
/ Physical properties
/ Polymer industry, paints, wood
/ Properties
/ Rubber
/ Silicone rubber
/ Silicones
/ Technology of polymers
2008
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Effect of filler size distribution on the mechanical and physical properties of alumina-filled silicone rubber
by
Qi, Shuhua
, Wang, Caifeng
, Zhou, Wenying
, An, Qunli
, Yu, Demei
in
Alumina
/ Applied sciences
/ Composites
/ Dynamic testing
/ Exact sciences and technology
/ Forms of application and semi-finished materials
/ Materials
/ Mechanical properties
/ Methods
/ Physical properties
/ Polymer industry, paints, wood
/ Properties
/ Rubber
/ Silicone rubber
/ Silicones
/ Technology of polymers
2008
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Effect of filler size distribution on the mechanical and physical properties of alumina-filled silicone rubber
Journal Article
Effect of filler size distribution on the mechanical and physical properties of alumina-filled silicone rubber
2008
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Overview
The properties of silicone rubber filled with three kinds of binary mixtures of alumina particles with different size distribution (i.e., 30 μm + 0.5 μm, 10 μm + 0.5 μm, and 5 μm + 0.5 μm) were investigated as a function of relative volume fraction of the 0.5 μm particles in the hybrid alumina (Vs) at a fixed total filler content of 55 vol%. The results indicate that each binary mixture of alumina‐filled silicone rubber exhibited improved thermal conductivity and tensile strength, and decreased dielectric constant, compared to a single particle size filler‐reinforced one, and the maximum improvements were obtained at the Vs ranging from 0.2 to 0.35; the coefficient of thermal expansion (CTE) of filled silicone rubber obviously reduced with increase in the Vs, whereas the elongation at break slightly decreased. At Vs = 0, the larger particles‐filled silicone rubber showed higher thermal conductivity, CTE, dielectric constant, and elongation at break, and lower tensile strength compared with the those of the smaller particles‐filled one. POLYM. ENG. SCI., 2008. © 2008 Society of Plastics Engineers
Publisher
Wiley Subscription Services, Inc., A Wiley Company,Wiley,Society of Plastics Engineers, Inc,Blackwell Publishing Ltd
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