Textile Science and Engineering (한국섬유공학회지)

The Korean Fiber Society (한국섬유공학회)
권호 표지

A Study on the Anisotropy of the Bending Strength of Thermoplastic Composites

열가소성 복합재료의 굽힘강도 이방성에 관한 연구

  • 이덕래 (전북대학교 공과대학 섬유공학과(공업기술연구소)) ;
  • 김학용 (전북대학교 공과대학 섬유공학과(공업기술연구소)) ;
  • 마태준 (전북대학교 공과대학 섬유공학과(공업기술연구소)) ;
  • 박수진 (한국화학연구소 화학소재연구부)
  • Published : 2001.12.01

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Abstract

Preparation of thermoplastic composites is difficult since penetration of the thermoplastic resin into the reinforcing fiber is hindered by its high melt viscosity. Commingled yarn has been developed in order to overcome the difficulties that are experienced when impregnation is carried out with thermoplastic materials to prepare reinforced composite materials. Unidirectional composites were fabricated (150$\times$230 mm) by using commingled yarn consisting of glass fiber as the reinforcing fiber and nylon 6 as the matrix fibers. In this study, the longitudinal (0 $^{\circ}$), 30$^{\circ}$, 45$^{\circ}$, 60$^{\circ}$, and transverse(90$^{\circ}$) bending strength were investigated by three point bending test. The relationships between the anisotropy of the bending strength and the holding time, molding pressure of 1st molding and 2nd molding thermoplastic composites were studied. The results were as follows 1. The bending stress for each direction is 53% at 30$^{\circ}$, 20% at 45$^{\circ}$, 14% at 60$^{\circ}$, and 8% at 90$^{\circ}$, to the fiber axis respectively. (At 0$^{\circ}$ the bending stress is 100%) 2. The bending stress of second molding product decreased about 10% and 25% when the direction is at 0$^{\circ}$ and 90$^{\circ}$, as compared with the first molding product.

Keywords

References

  1. Handbook of Composites L. S. Penn;T. T. Chiao;G. Lubin(Ed.)
  2. J. Korean Fiber Soc v.36 Isothermal Cure Kinetics of Epoxy/Phenol-novolac/Lafent Catalyst System S. J. Park(et al)
  3. Fiber Technology and Industry v.1 Development and Application of Advanced Textile Structural Composites T. J. Kang(et al)
  4. Advanced Composites Letters v.1 Analysis on Thermoplastic Composites System T. Matsuo
  5. J. Korean Fiber Soc v.32 Matrix Resin and Molding Materials of Thermoplastic Composites D. R. Lee
  6. 34th International Sample Symposium Y. Suzuki;J. Saitoh
  7. J. Thermoplastic Composites Materials v.1 Thermoplastic Powder Technology for Advanced Composites Systems T. Hartness
  8. Proceeding of the 1st Japan International Sample Symposium Z. Maekawa(et al)
  9. Seikei-Kakou v.3 A Study on Processing Conditions of Thermoplastic Composites with Commingled Yarn(Part 2) H. Hamada(et al)
  10. Sen-i Gakkaishi v.49 Effects of Surface Treatment on Bending Properties of Long-Fiber Reinforced Thermoplastics Compostes Made of Commingled Yarn T. Matsuo
  11. J. Soc. Mat. Sci. Japan v.42 Effect of Processing Condition on bending Properties of Thermoplastic Composites with Commingled Sppun Yarn T. Matsuo(et al)
  12. J. Korean Fiber Soc v.31 A Study on Bending Strength of Thermoplastic Composites with Commingled Yarn (1) D. R. Lee(et al)
  13. J. Korean Fiber Soc v.32 A Study on Bending Strength of Thermoplastic Composites with Conningled Yarn (2),(3) D. R. Lee(et al)
  14. J. Korean Fiber Soc v.34 Effects of the Molding Condition in the Mechanical Properties on the Thermoplastic Composites D. R. Lee(et al)
  15. J. Korean Fiber Soc v.36 Tensile Properties of Tubular Braided Fiber Reinforced Thermoplastic Composites D. R. Lee(et al)
  16. J. Korean Fiber Soc v.37 Tensile Properties and Fracture Toughness of Carbon/Nylon 6 Laminated Thermoplastic Composites D. R. Lee(et al)
  17. J. Korean Fiber Soc v.32 Tensile Properties of Thermoplastic Composites with Braid Structures of Commingled Yarn D. R. Lee(et al)
  18. 複合材料入門 官入裕夫
  19. 複合材料 堂山昌男
  20. Mechanics of Fibrous Composites M. H. Datoo
  21. J. Korean Fiber Soc v.37 A Study on the Tensile Properties of Braid Reinforced Thermoplastic Composites-Effects of Middle-end Yarn and Axial Yarn- D.R.Lee(et al)
  22. 복합재료파괴역학 이억섭;한민구