Improvement of Thermal Conductivity for Carbon Fabric Composites Base on the Fabric Structure

Phone Thant Kyaw; Pyae Phyo Maung; Galina V. Malysheva

doi:10.4028/www.scientific.net/MSF.1037.161

Paper Titles

Influence of Additive’s Concentration on the Temperature Conditions for the Formation of the Solid Solutions of the System MgAl₂O₄-Ga₂O₃
p.135

Studies of Magnetically Active Silicone Elastomers on a Vibrostend
p.141

Comparative High-Field Magnetization Study of (Sm,Er)₂Fe₁₇ and Er₂Fe₁₇ Compounds and their Nitrides
p.148

Accelerated Weathering Testing of Polypropylene Tank Materials
p.154

Improvement of Thermal Conductivity for Carbon Fabric Composites Base on the Fabric Structure
p.161

The Patterns of Phase Composition and Properties of High-Calcium Low-Density Ceramics Formation Based on Argillous Raw Materials of Various Chemical and Mineralogical Composition
p.167

Study of the Effect of Tungsten Carbide Nanopowder Agglomerate Additives on the Strength Properties of Carbon Fiber-Reinforced Plastic
p.174

Research on the Synthesis of Proppants Applied for Oil Production by the Method of Hydraulic Facing
p.181

Creation of Basalt Plastics with Different Types of Hybrid Matrices
p.189

HomeMaterials Science ForumMaterials Science Forum Vol. 1037Improvement of Thermal Conductivity for Carbon...

Improvement of Thermal Conductivity for Carbon Fabric Composites Base on the Fabric Structure

Abstract:

This paper presents the development of methods for improving the thermal conductivity of fiber reinforcing materials based on the fabric structures. The thermal analysis of fabric structure in thermal load calculation is performed by Fourier’s Law of Thermal Conduction and Steady-State Thermal calculation in Siemens NX. This study leads to the development of thermal conductivity in manufacturing technology of fiber reinforcing materials. Keywords: Thermal conductivity, fabric structure, polymer composite materials

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Materials Science Forum (Volume 1037)

Pages:

161-166

DOI:

https://doi.org/10.4028/www.scientific.net/MSF.1037.161

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Online since:

July 2021

Authors:

Phone Thant Kyaw*, Pyae Phyo Maung, Galina V. Malysheva

Keywords:

Fabric Structure, Polymer Composite Materials, Thermal Conductivity

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