대한기계학회논문집A (Transactions of the Korean Society of Mechanical Engineers A)

  • 제27권4호
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  • Pages.623-631
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  • 2003
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  • 1226-4873(pISSN)
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  • 2288-5226(eISSN)
대한기계학회 (The Korean Society of Mechanical Engineers)
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인공발(Prosthetic Foot) 스프링용 유리섬유강화 적층재의 적층배향에 따른 층간분리거동 해석

Analysis of Delamination Behavior on the Stacking Sequence of Prosthetic Foot Keel in Glass fiber Reinforced Laminates

  • 송삼홍 (고려대학교 기계공학과) ;
  • 김철웅 (고려대학교 대학원 기계공학과)
  • 발행 : 2003.04.01
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초록

It is considered that the application of advanced composite materials to the prostheses for the disables is important to improve their bio-mechanical performance. Particularly, energy storing foot prosthesis is mostly important to restore gait ability of the disables with low-extremity amputation since it could provide propulsion at terminal stance enhancing the disables ability to walk long distance even run and jump. Therefore, the energy storing spring of Prosthetic foot keel under cyclic bending moment use mainly of high strength glass fiber reinforced plastic. The main objective of this study was to evaluate the stacking sequence effect using the delamination growth rate(dA$_{D}$/dN) of energy storing spring in glass fiber reinforced plastic under cyclic bending moment. The test results indicated that the shape of delamination zone depends on stacking sequence in GFRP laminates. Delamination area(A$_{D}$) turns out that variable types with the contour increased non-linearly toward the damage zones.nes.

키워드

참고문헌

  1. Lee D. H., Jang T. S., Lee J. J. and Yoon Y. S., 2000, 'A Study on the Design of the Keel in the Energy Storing Prosthetic Foot Using the Finite Element Analysis and the Taguchi Method,' Transactions of the KSME, A, Vol. 24, No.3, pp. 613 -624
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  7. Song Sam-Hong and Kim Cheol-Woong, 2003, 'The Analysis of Fatigue Behavior Using the Delamination Growth Rate$(dA_D/da)$ and Fiber Bridging Effect Factor$(F_{BE})$ in AI/GFRP Laminates,' Transactions of the KSME, A, Vol. 27, No.2, pp. 317-326 https://doi.org/10.3795/KSME-A.2003.27.2.317
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피인용 문헌

  1. Design of Carbon Composite Prosthetic Feet using Finite Element Methods vol.30, pp.7, 2013, https://doi.org/10.7736/KSPE.2013.30.7.769