Experimental Manufacturing Methods of Glass Fiber Composites Considering Flexural Behaviour
Fiber-reinforced plastic laminates (FRPL) and sandwich composites are outstanding materials due to its mechanical properties (i.e., light weight, low density and high strength to weight ratio). These applications are widely used in the fields of aviation, automotive and construction industries. The...
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Industrial Engineering Department Faculty of Industrial Technology Universitas Ahmad Dahlan
2021
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oai:doaj.org-article:67ddda36e6d44d5787e77b02ad45b1d22021-11-12T14:30:53ZExperimental Manufacturing Methods of Glass Fiber Composites Considering Flexural Behaviour10.12928/si.v19i2.216581693-65902442-2630https://doaj.org/article/67ddda36e6d44d5787e77b02ad45b1d22021-10-01T00:00:00Zhttp://journal.uad.ac.id/index.php/Spektrum/article/view/21658https://doaj.org/toc/1693-6590https://doaj.org/toc/2442-2630Fiber-reinforced plastic laminates (FRPL) and sandwich composites are outstanding materials due to its mechanical properties (i.e., light weight, low density and high strength to weight ratio). These applications are widely used in the fields of aviation, automotive and construction industries. The superior mechanical properties depend on the properties of reinforcing materials, matrixes and manufacturing processes. This research proposes the comprehensive study of mechanical properties of epoxy resin reinforced by glass fibers under different processes. Glass-fiber sandwich composites were manufactured by the hand lay-up process and cured in different methods (i.e., with and without vacuum bagging). The comparison between curing temperature and pressure is investigated using the vacuum bagging process to determine the mechanical properties under flexural tests. Experimental tests are performed using the universal testing machine (UTM). As a result, it is confirmed that the hand lay-up process affects the flexural stress, deflection and internal force of both fiber-reinforced plastic laminates and sandwich composites. At the high curing temperature, the vacuum bagging method significantly provides the greater flexural stress, deflection and loadWipada BoransanThongchart KerdpholVeena PhunpengIndustrial Engineering Department Faculty of Industrial Technology Universitas Ahmad Dahlanarticlesandwich compositesglass fiberhand lay-upvacuum baggingIndustrial engineering. Management engineeringT55.4-60.8IndustryHD2321-4730.9ENIDSpektrum Industri: Jurnal Ilmiah Pengetahuan dan Penerapan Teknik Industri, Vol 19, Iss 2, Pp 87-95 (2021) |
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sandwich composites glass fiber hand lay-up vacuum bagging Industrial engineering. Management engineering T55.4-60.8 Industry HD2321-4730.9 |
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sandwich composites glass fiber hand lay-up vacuum bagging Industrial engineering. Management engineering T55.4-60.8 Industry HD2321-4730.9 Wipada Boransan Thongchart Kerdphol Veena Phunpeng Experimental Manufacturing Methods of Glass Fiber Composites Considering Flexural Behaviour |
| description |
Fiber-reinforced plastic laminates (FRPL) and sandwich composites are outstanding materials due to its mechanical properties (i.e., light weight, low density and high strength to weight ratio). These applications are widely used in the fields of aviation, automotive and construction industries. The superior mechanical properties depend on the properties of reinforcing materials, matrixes and manufacturing processes. This research proposes the comprehensive study of mechanical properties of epoxy resin reinforced by glass fibers under different processes. Glass-fiber sandwich composites were manufactured by the hand lay-up process and cured in different methods (i.e., with and without vacuum bagging). The comparison between curing temperature and pressure is investigated using the vacuum bagging process to determine the mechanical properties under flexural tests. Experimental tests are performed using the universal testing machine (UTM). As a result, it is confirmed that the hand lay-up process affects the flexural stress, deflection and internal force of both fiber-reinforced plastic laminates and sandwich composites. At the high curing temperature, the vacuum bagging method significantly provides the greater flexural stress, deflection and load |
| format |
article |
| author |
Wipada Boransan Thongchart Kerdphol Veena Phunpeng |
| author_facet |
Wipada Boransan Thongchart Kerdphol Veena Phunpeng |
| author_sort |
Wipada Boransan |
| title |
Experimental Manufacturing Methods of Glass Fiber Composites Considering Flexural Behaviour |
| title_short |
Experimental Manufacturing Methods of Glass Fiber Composites Considering Flexural Behaviour |
| title_full |
Experimental Manufacturing Methods of Glass Fiber Composites Considering Flexural Behaviour |
| title_fullStr |
Experimental Manufacturing Methods of Glass Fiber Composites Considering Flexural Behaviour |
| title_full_unstemmed |
Experimental Manufacturing Methods of Glass Fiber Composites Considering Flexural Behaviour |
| title_sort |
experimental manufacturing methods of glass fiber composites considering flexural behaviour |
| publisher |
Industrial Engineering Department Faculty of Industrial Technology Universitas Ahmad Dahlan |
| publishDate |
2021 |
| url |
https://doaj.org/article/67ddda36e6d44d5787e77b02ad45b1d2 |
| work_keys_str_mv |
AT wipadaboransan experimentalmanufacturingmethodsofglassfibercompositesconsideringflexuralbehaviour AT thongchartkerdphol experimentalmanufacturingmethodsofglassfibercompositesconsideringflexuralbehaviour AT veenaphunpeng experimentalmanufacturingmethodsofglassfibercompositesconsideringflexuralbehaviour |
| _version_ |
1718430373737660416 |