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논문 기본 정보
- 자료유형
- 학술저널
- 저자정보
- 발행연도
- 2023.2
- 수록면
- 31 - 37 (7page)
이용수
초록· 키워드
오류제보하기
In this study, a fiber chain was developed to replace a steel chain using high-modulus polyethylene DM20. The pick count, wrapping count, and inner length were selected as the main design variables of the fiber chain and were analyzed to increase the breaking strength. Orthogonal array experiments were conducted, and the results were analyzed with respect to the breaking strength. The analysis revealed that the pick count and wrapping count had meaningful effects at significance levels within 5%. The main effect analysis revealed that a smaller pick count, larger wrapping count, and longer inner length caused the breaking strength to increase. With the wrapping count fixed at 1, a pick count less than -0.65, and an inner length greater than 0.38, the breaking strength was calculated to be greater than 300 kN. These results are expected be important factors in the derivation of an optimal combination of design variables to attain a fiber chain with a targeted strength.
목차
ABSTRACT
1. Introduction
2. Component Design
3. Experiment Method
4. Results and Discussion
5. Conclusions
References
참고문헌 (22)
참고문헌 신청
Banfield, S., & Casey, N. (1998). Evaluation of fiber rope properties for offshore mooring. Ocean Engineering, 25(10), 861‒79. https://doi.org/10.1016/S0029-8018(97)10017-8
Del Vecchio, C. J. M. (1992). Light weight materials for deep water moorings [Doctoral dissertation]. University of Reading.
Petruska, D. J., Kelly, P., Stone, B., Ahjem, V., Zimmerman, E. H., Garrity, R., & Veselis,Y. (2010). SS: Fiber moorings, recent experiences and research: Updating API RP 2SM on synthetic fiber rope for offshore moorings [Conference presentation]. Offshor
Davies, P., Francois, M., Grosjean, F., Baron, P., Salomon, K., & Trassoudaine, D. (2002). Synthetic mooring lines for depths to 3000 meters [Conference presentation]. Offshore Technology Conference, Houston, USA. https://doi.org/10.4043/14246-MS
Chi, C. H., Lundhild, E. M., Veselis, T., & Huntley, M. (2009).Enabling ultra-depwater mooring with aramid fiber rope technology [Conference presentation]. Offshore Technology Conference, Houston, USA. https://doi.org/10.4043/20074-MS
Del Vecchio, C. J. M. (1992). Light weight materials for deep water moorings [Doctoral dissertation]. University of Reading.
Petruska, D. J., Kelly, P., Stone, B., Ahjem, V., Zimmerman, E. H., Garrity, R., & Veselis,Y. (2010). SS: Fiber moorings, recent experiences and research: Updating API RP 2SM on synthetic fiber rope for offshore moorings [Conference presentation]. Offshor
Davies, P., Francois, M., Grosjean, F., Baron, P., Salomon, K., & Trassoudaine, D. (2002). Synthetic mooring lines for depths to 3000 meters [Conference presentation]. Offshore Technology Conference, Houston, USA. https://doi.org/10.4043/14246-MS
Chi, C. H., Lundhild, E. M., Veselis, T., & Huntley, M. (2009).Enabling ultra-depwater mooring with aramid fiber rope technology [Conference presentation]. Offshore Technology Conference, Houston, USA. https://doi.org/10.4043/20074-MS
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