Textile Coloration and Finishing (한국염색가공학회지)

The Korean Society of Dyers and Finishers (한국염색가공학회)
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Property Evaluation of Epoxy Resin based Aramid and Carbon Fiber Composite Materials

에폭시 수지 적용 아라미드 및 탄소섬유 복합재료의 물성연구

  • Seo, Dae-Kyung (Korea Dyeing and Finishing Technology Institute) ;
  • Ha, Na Ra (Korea Dyeing and Finishing Technology Institute) ;
  • Lee, Jang-Hun (Korea Dyeing and Finishing Technology Institute) ;
  • Park, Hyun-Gyu (Department of Textile System Engineering, Kyungpook National University) ;
  • Bae, Jin-Seok (Department of Textile System Engineering, Kyungpook National University)
  • Received : 2014.11.13
  • Accepted : 2015.03.17
  • Published : 2015.03.27
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Abstract

Recently, super fiber reinforced composite materials are widely used in many industries due to high mechanical properties. In this study, 2 different types of composite materials were manufactured in order to compare their mechanical properties. Carbon and Aramid fibers were used for reinforcement materials and Bisphenol-A type epoxy resin was for matrix. Two kinds of fiber-reinforced materials were manufactured by RIM(Resin Injection Molding) method. Before manufacturing composite materials, the optimal manufacturing and curing process condition were established and the ratio of reinforcement to epoxy resin was discussed. FT-IR analysis was conducted to clarify the structure of epoxy resin. Thermal and mechanical property test were also carried out. The cross-section of composite materials was observed using a scanning electron microscope(SEM).

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References

  1. J. W. S. Hearle, "High-Performance Fibers", Woodhead Publishing Ltd., New York, pp.23-58, 2001.
  2. W. Brostow, J. Kubat, and M. M. Kubat, "In Physical Properties of Polymers Handbook", Wiley-Interscience, New York, pp.313-334, 1996.
  3. M. Lee, S. B. Bae, J. K. Park, and S. G. Lee, The Development of High Performance Nonocomposites with Carbon Nanotube, Textile Coloration and Finishing, 26(2), 71(2014). https://doi.org/10.5764/TCF.2014.26.2.71
  4. C. A. Harper, "Handbook of Plastics, Elastomer and Composites, 3d ed.", McGraw-hill, New York, 1996.
  5. S. H. Lim, C. S. Ha, and W. J. Cho, Short Aramid Fiber Reinforced Epoxy Composites 2, Effect of Curing Acceleration of Epoxy Matrix and Mechanical Propeties of Aramid Fiber Reinforced Epoxy Composites, Polymer, 16(2), 216(1992).
  6. M. C. Andrews, D. J. Bannister, and R. J. Young, Review the Interfacial Properties of Aramid/Epoxy Model Composites, J. of Materials Science, 31, 3893(1996). https://doi.org/10.1007/BF00352650
  7. G. C. Huang, C. H. Lee, and J. K. Lee, Thermal and Mechanical Properties of Short Fiber-Reinforced Epoxy Composites, Polymer, 33(6), 530(2009).
  8. S. H. Lee and J. O. Lee, Matrix Resin Systems with Different Molar Ratios to Improve the Properties of Fiber-reinforced Composites, Polymer, 24(4), 459(2000).
  9. J. W. Cho, S. J. Kwon, J. D. Choe, S. T. Kim, B. C. Ji, and J. H. Yeum, Preparation and Charaterization of Shock Energy Absorber Lanyard used Super Fibers, Textile Coloration and Finishing, 26(3), 173(2014). https://doi.org/10.5764/TCF.2014.26.3.173
  10. J. Y. Han, M. H. Kim, and S. S. Kang, A Study on the Physical Property of Epoxy Resin Due to After-Curing Condition, J. of the Korean Society of Manufacturing Technology Engineers, 21(6), 976(2012). https://doi.org/10.7735/ksmte.2012.21.6.976
  11. Y. Du, Y. Xue, and H. L. Frisch, "In Physial Properties of Polymers Handbook, edited by J. E. Mark", Wiley-Interscience, New York, pp.227-239, 1996.
  12. G. C. Huang, C. H. Lee, and J. K. Lee, Thermal and Mechanical Properties of Short Fiber-Reinforced Epoxy Composites, Polymer, 33(6), 530(2009).

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