Effect Of Microwave Curing On Laminate Composites Performance
At present, composites material becomes common material in industries such as aerospace, aeronautical, automobile and also sports. The high specific stiffness and also high specific weight makes it ideal for the panel ans structure parts of the product in that particular industries. This show the gr...
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2017
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T Technology (General) T Technology (General) Mat, Irwan Effect Of Microwave Curing On Laminate Composites Performance |
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At present, composites material becomes common material in industries such as aerospace, aeronautical, automobile and also sports. The high specific stiffness and also high specific weight makes it ideal for the panel ans structure parts of the product in that particular industries. This show the growth of composites manufacturing industries thus high rate of production. These composites material is costly compared to other metal due to its complicated and lengthy fabrication process. Also, due to its uniquely curing process, it requires time for curing and also heat in order to help the curing makes the composites material to rise in price. Therefore, microwave curing process is studied in order to shorten the curig process without ignoring the performance of the material. |
| format |
Thesis |
| qualification_name |
Master of Philosophy (M.Phil.) |
| qualification_level |
Master's degree |
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Mat, Irwan |
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Mat, Irwan |
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Mat, Irwan |
| title |
Effect Of Microwave Curing On Laminate Composites Performance |
| title_short |
Effect Of Microwave Curing On Laminate Composites Performance |
| title_full |
Effect Of Microwave Curing On Laminate Composites Performance |
| title_fullStr |
Effect Of Microwave Curing On Laminate Composites Performance |
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Effect Of Microwave Curing On Laminate Composites Performance |
| title_sort |
effect of microwave curing on laminate composites performance |
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Universiti Teknikal Malaysia Melaka |
| granting_department |
Faculty of Manufacturing Engineering |
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2017 |
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http://eprints.utem.edu.my/id/eprint/22401/1/Effect%20Of%20Microwave%20Curing%20On%20Laminate%20Composites%20Performance%20-%20Irwan%20Mat%20-%2024%20Pages.pdf http://eprints.utem.edu.my/id/eprint/22401/2/Effect%20Of%20Microwave%20Curing%20On%20Laminate%20Composites%20Performance.pdf |
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my-utem-ep.224012022-02-16T12:57:10Z Effect Of Microwave Curing On Laminate Composites Performance 2017 Mat, Irwan T Technology (General) TA Engineering (General). Civil engineering (General) At present, composites material becomes common material in industries such as aerospace, aeronautical, automobile and also sports. The high specific stiffness and also high specific weight makes it ideal for the panel ans structure parts of the product in that particular industries. This show the growth of composites manufacturing industries thus high rate of production. These composites material is costly compared to other metal due to its complicated and lengthy fabrication process. Also, due to its uniquely curing process, it requires time for curing and also heat in order to help the curing makes the composites material to rise in price. Therefore, microwave curing process is studied in order to shorten the curig process without ignoring the performance of the material. 2017 Thesis http://eprints.utem.edu.my/id/eprint/22401/ http://eprints.utem.edu.my/id/eprint/22401/1/Effect%20Of%20Microwave%20Curing%20On%20Laminate%20Composites%20Performance%20-%20Irwan%20Mat%20-%2024%20Pages.pdf text en public http://eprints.utem.edu.my/id/eprint/22401/2/Effect%20Of%20Microwave%20Curing%20On%20Laminate%20Composites%20Performance.pdf text en validuser https://plh.utem.edu.my/cgi-bin/koha/opac-detail.pl?biblionumber=108971 mphil masters Universiti Teknikal Malaysia Melaka Faculty of Manufacturing Engineering 1. Michael P áMingos, D., 1991. Tilden Lecture. Applications of microwave dielectric heating effects to synthetic problems in chemistry. Chemical Society Reviews, 20(1), pp.1-47. 2. Erhard, G. and Thompson, M., 2006. Designing with plastics. Munich, Germany: Hanser. 3. Barbero, E.J., 2010. Introduction to composite materials design. CRC press. 4. Meredith, R.J., 1998. Engineers' handbook of industrial microwave heating (No. 25). IET. 5. Leadbeater, N.E. and Torenius, H.M., 2002. A study of the ionic liquid mediated microwave heating of organic solvents. The Journal of organic chemistry, 67(9), pp.3145-3148. 6. Kappe, C.O., 2004. Controlled microwave heating in modern organic synthesis. Angewandte Chemie International Edition, 43(46), pp.6250-6284. 7. Kappe, C.O., 2008. Microwave dielectric heating in synthetic organic chemistry. Chemical Society Reviews, 37(6), pp.1127-1139. 8. Brown, W.C., 1984. The history of power transmission by radio waves. IEEE Transactions on Microwave Theory and Techniques, 32(9), pp.1230-1242. 9. Crivello, J.V., Narayan, R. and Sternstein, S.S., 1997. Fabrication and mechanical characterization of glass fiber reinforced UV‐cured composites from epoxidized vegetable oils. Journal of applied polymer science, 64(11), pp.2073-2087. 10. Mayers, C.P., 1970. Histological fixation by microwave heating. Journal of clinical pathology, 23(3), pp.273-275. 11. Munakata, S.A.T.O.R.U. and Hendricks, J.B., 1993. Effect of fixation time and microwave oven heating time on retrieval of the Ki-67 antigen from paraffin-embedded tissue. Journal of Histochemistry & Cytochemistry, 41(8), pp.1241-1246. 12. Leonelli, C. and Mason, T.J., 2010. Microwave and ultrasonic processing: now a realistic option for industry. Chemical Engineering and Processing: Process Intensification, 49(9), pp.885-900. 13. Liu, W., Mohanty, A.K., Drzal, L.T., Misra, M., Kurian, J.V., Miller, R.W. and Strickland, N., 2005. Injection molded glass fiber reinforced poly (trimethylene terephthalate) composites: fabrication and properties evaluation. Industrial & engineering chemistry research, 44(4), pp.857-862. 14. Ramesh, M., Palanikumar, K. and Reddy, K.H., 2013. Mechanical property evaluation of sisal–jute–glass fiber reinforced polyester composites. Composites Part B: Engineering, 48, pp.1-9. 15. Tagliaferri, V., Caprino, G. and Diterlizzi, A., 1990. Effect of drilling parameters on the finish and mechanical properties of GFRP composites. International Journal of Machine Tools and Manufacture, 30(1), pp.77-84. 16. Turon, A., Camanho, P.P., Costa, J. and Dávila, C.G., 2006. A damage model for the simulation of delamination in advanced composites under variable-mode loading. Mechanics of Materials, 38(11), pp.1072-1089. 17. Standard, A.S.T.M., 2010. D638: Standard test method for tensile properties of plastics. West Conshohocken (PA): ASTM International. 18. Standard, A.S.T.M., 2014. D3039: Standard Test Method for Tensile Properties of Polymer Matrix Composite Materials. West Conshohocken (PA): ASTM International. 19. Standard, A.S.T.M., 2016. D 2344: Standard Test Method for Short-Beam Strength of Polymer Matrix Composite Materials and Their Laminates. West Conshohocken (PA): ASTM International. 20. Standard, A.S.T.M., 2015. D790: Standard Test Methods for Flexural Properties of Unreinforced and Reinforced Plastics and Electrical Insulating Materials. West Conshohocken (PA): ASTM International. 21. Standard, A.S.T.M., 2011. D2584: Standard Test Method for Ignition Loss of Cured Reinforced Resins. West Conshohocken (PA): ASTM International. 22. Standard, A.S.T.M., 2015. D3171: Standard Test Methods for Constituent Content of Composite Materials. West Conshohocken (PA): ASTM International. 23. Standard, A.S.T.M., 2016. D6641: Standard Test Method for Compressive Properties of Polymer Matrix Composite Materials Using a Combined Loading Compression (CLC) Test Fixture. West Conshohocken (PA): ASTM International. |