Applicability Assessment of Epoxy Resin Reinforced Glass Fiber Composites Through Mechanical Properties in Cryogenic Environment for LNG CCS
![]() |
Yeom, Dong-Ju
(Department of Naval Architecture and Ocean Engineering, Pusan National University)
Bang, Seoung-Gil (Department of Naval Architecture and Ocean Engineering, Pusan National University) Jeong, Yeon-Jae (Department of Naval Architecture and Ocean Engineering, Pusan National University) Kim, Hee-Tae (Department of Naval Architecture and Ocean Engineering, Pusan National University) Park, Seong-Bo (Maritime Research institute, Hyundai Heavy Industries Co. Ltd) Kim, Yong-Tai (Maritime Research institute, Hyundai Heavy Industries Co. Ltd) Oh, Hoon-Gyu (Maritime Research institute, Hyundai Heavy Industries Co. Ltd) Lee, Jae-Myung (Department of Naval Architecture and Ocean Engineering, Pusan National University) |
1 | Bai, R., et al., 2020. Shear deformation and energy absorption analysis of flexible fabric in yarn pullout test. Composites Part A; Applied Science and Manufacturing, 1281, 105678. |
2 | Bhat, R., et al., 2019. Mechanical testing and microstructure characterization of glass fiber reinforced isophthalic polyester composites. Journal of Materials Research and Technology, 8(4), pp.3653-3661. DOI |
3 | Botelho, E.C., Silva, R.A., Pardini, L.C. & Rezende, M.C., 2004. Evaluation of adhesion of continuous fiber-epoxy composite/aluminum laminates. Journal of Adhesion Science & Technology, 18(15-16), pp.1799-1813. DOI |
4 | Humberto, S.A., Clarissa, C.A., Edson, C.B. & Sandro, C.A., 2014. Effect fiber orientation on the shear behavior of glass fiber/epoxy composites. Materials & Design, 65, pp .789-795. DOI |
5 | Ion, D., Adriana, S. & Ana, S., 2010. Aluminum/glass fibre and aluminum/carbon fibre hybrid laminates. Incas Bulletin, 2(2), pp.33-39. DOI |
6 | Kim, J.H. & Chun, K.W., 2014 Technical trends of LNG fueled ship and bunkering. Korea Evaluation Institute of Industrial Technology, Daegu, South Korea. |
7 | Kim, Y.G., 2019. Evaluation and modification of tensile properties of carbon fiber reinforced polymer(CFRP) as brittle material with probability distribution. Journal of the Korea Institute for Structural Maintenance and Inspection, 23(3), pp.17-24. |
8 | Morkavuk, S., Koklu, U., Bagci, M. & Gemi, L., 2018. Cryogenic machining of carbon fiber reinforced plastic(CFRP) composites and the effects of cryogenic treatment on tensile properties:A comparative study. Composites Part B, 18. |
9 | Shin, K.C. & Lee, J.J., 2006. Effects of thermal stresses on failure of co-cured lap joints with steel and carbon fiber-epoxy composite adherends under static and fatigue tensile loads. Composites: Part A, 37, pp.476-487. DOI |
10 | Shindo, Y., Takano, S., Narita, F. & Horiguchi, K., 2006. Tensile and damage behavior of plane weave glass/epoxy composites at cryogenic temperatures. Fusion Engineering and Design, 81, pp.2479-2483. DOI |
11 | Jeong, Y.J. et al., 2019. Evaluation of mechanical performance of membrane type secondary barrier anisotropic composites depending on fiber direction. Journal of the Society of Naval Architects of Korea, 57, pp.168-174. DOI |
12 | Volker, B., 2020. Technology trends for ships and shipping of tomorrow. Maritime Technology and Research, 2, pp.1-18. DOI |
13 | Yoon, S.H., Kim, K.H. & Lee, D.G., 2013. Improvement of the adhesive peel strength of the secondary barrier with level difference for LNG containment system. Composite Structures, 95, pp.528-538. DOI |
14 | Han, S.M. et al., 2009. Experimental study on the structural behavior of secondary barrier of MARK-III LNG CCS. 28 International Conference on Ocean, Offshore and Arctic Engineering, Hawaii, USA, 31 May-5 June 2009. |
![]() |