Tensile Strength Analysis of Polymer Composite Materials Fiber Reinforced in The Fiber boat Application
- Articles
- Submited: July 30, 2020
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Published: August 6, 2020
Abstract
Tensile strength analysis of polymer composite materials (PCMs) fiberglass-reinforced is important for fiber boat manufacturing. It is one of mechanical properties can be determined by carrying out tensile testing. Tensile testing is very important for fiber boat. In this research each test was carried out on variations in the amount of fiberglass lamination CSM 300, CSM 450 and WR 600 and the variation in weight percentages of 99.5% -0.5%, 99% -1%, 98.5% -1 , 5%, 98% -2% and 97.5% -2.5% have been used. The results show that the more laminates, the tensile strength increases, and the more the weight of the hardener, the tensile strength decrease obtained.
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References
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Dossou, G. K., Boumbimba, R. M., Bonfoh, N., Hernandez, S. G., Gonzalez, D. G., Gerard, P., et al. Innovative acrylic thermoplastic composites versus conventionalcomposites: improving the impact performances. Composite Structures: 2019;217: 1-13.
Zainuddin, S., Hosur, M., Mohammed, A., Smith, E., & Jeelani, S. Thermoset resin sandwich structures. Lightweight Composite Structures in Transport: 2016; volume berapa: 166-187.
Chalmers, D. The Potential for the Use of Composite Materials in Marine Structures. Marine Structures: 1994;7: 441-456.
Jesthi, D. K., & Nayak, R. K. Improvement of Mechanical Properties of Hybrid Composite through Interply Rearrangement of Glass and Carbon Woven Fabrics for Marine Applications. Composites Part B: 2019;168: 467-475.
Verma, D., & Goh, K. L. Natural fiber-reinforced polymer composites: application in marine environments. Biomass, Biopolymer-Based Materials, and Bioenergy: 2019; volume berapa: 51-73.
Maurin, R., Perrot, Y., Bourmaud, A., Davies, P., & Baley, C. Seawater ageing of low styrene emission resins for marine composites: Mechanical behaviour and nano-indentation studies. Composites: 2009;40: 1024–1032.
Mouritz, A., Gellert, E., Burchill, P., & Challis, K. Review of Advanced Composite Structures for Naval Ships and Submarines. Composite Structures: 2001;53: 21-41.
Shenoi, R. A., & Dotkins, A. R. Design of Ships and Marine Structures Made from FRP Composite Materials. Comprehensive Composite Materials: 2000; volume berapa: 429-449. Southampton: Elsevier Science Ltd.
Chen, W., Meng, Q., Hao, H., Cui, J., & Shi, Y. Quasi-static and dynamic tensile properties of fiberglass/epoxy laminate sheet. Construction and Building Materials: 2017;143: 247–258.
Giorgini, L., Leonardi, C., Mazzocchetti, L., Zattini, G., Cavazzoni, M., Montanari, I., et al. Pyrolysis of Fiberglass/Polyester Composites: Recovery and Characterization of Obtained Products. FME Transactions: 2016;44: 405-414.
Das, D., Dubey, O.P., Sharma, M., Nayak, R.K., Samal, C., Mechanical properties and abrasion behaviour of glass fiber reinforced polymer composites – A case study, Materials Today: Proceedings: xxxx;xxx: xxx.
Artikel-teknologi. 2018. Pengertian Material Komposit di http://artikel-teknologi.com/pengertian-material-komposit/, 2018 (diakses 08 Juli).
ASTM D3039/D3039M. 2004. Standard Test Method for Determining the Charpy Impact Resistance (Chalmers, 1994) of Notched Specimens of Plastics, ASTM Int.
How to Cite
1.
Tensile Strength Analysis of Polymer Composite Materials Fiber Reinforced in The Fiber boat Application. Journal of Research and Opinion [Internet]. 2020 Aug. 6 [cited 2024 Nov. 22];7(8):2763-9. Available from: https://researchopinion.in/index.php/jro/article/view/74
