Contribution of Carbon Black to Thermal Conductivity of Natural Rubber

Jun Ping Song; Lian Xiang Ma

doi:10.4028/www.scientific.net/KEM.561.158

Paper Titles

Research on the Preparation of the Low Density Material with High Volume Filling Rate of Phenolic Hollow Microsphere
p.135

Study on Transient Heat Transfer of Micro-Injection Molded Structures Based on the Finite Element Method
p.141

Thermal Conductivity of EPDM Rubber Filled with Modified Nano-AlN
p.146

Research on the Elasticity Modulus of Short Glass Fiber / Thermoplastic Polyurethane (SGF-TPU) Composites
p.152

Contribution of Carbon Black to Thermal Conductivity of Natural Rubber
p.158

The Effect of AIREBO on Thermal Conductivity of EPDM Networks
p.164

Thermal Conductivities and Mechanical Properties of EPDM Filled with Modified Carbon Nanotubes
p.169

Finite-Element Analysis of Rotor in the Rubber Continuous Plasticator
p.174

Analysis of the Energy Saving Methods in Tire Factory
p.181

HomeKey Engineering MaterialsKey Engineering Materials Vol. 561Contribution of Carbon Black to Thermal...

Contribution of Carbon Black to Thermal Conductivity of Natural Rubber

Abstract:

Eight kinds of carbon black filled natural rubber composites were prepared, and thermal conductivity was studied. Acetylene black contributes much to the thermal conductivity of rubber, and tiny loading results in considerable improvement. The conductive carbon black 40B2 is advantageous for the improvement in thermal conductivity of rubber when its loading reaches middle level, and at its middle level, also tiny loading results in much improvement. Most kinds of carbon black for rubber application filled rubber composites have good properties except for N134 and N660, especially the poor contribution of N660. Additionally, in the case of carbon black filled rubber composites, addition of filler may not necessarily benefit the thermal conductivity when filler loading is not much.

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Periodical:

Key Engineering Materials (Volume 561)

Pages:

158-163

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.561.158

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Online since:

July 2013

Authors:

Jun Ping Song, Lian Xiang Ma

Keywords:

Carbon Black (CB), Rubber, Thermal Conductivity (TC)

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