Pembuatan Perahu Nelayan Berbahan Komposit Sandwich Dengan Teknik Hand Lay Up
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Bansal., Arun, K. & Zoolagud, S. S. (2002). Bamboo composites: Material of the future, Journal of Bamboo and Rattan, 9(1), 119-130.
Catur, A. D. (2009), Berat Jenis Komposit Sandwich Matrik Polyester Diperkuat Serat Nanas dan Filler Flyash dengan Honeycomb Core dari Kertas Bekas, Seminar Nasional dan Pameran Hasil-hasil Penelitian, Lembaga Penelitian Universitas Mataram.
Catur, A. D. (2015). Load weight of boat : Experimental approach and hydrostatics calculation. Proceedings International Conference on Mathematics, Sciences and Education, University of Mataram, Lombok Island, Indonesia, November 4-5, 2015
East coast. (2013), Guide to Glass Reinforced Plastic (GRP),http://www.ecfibreglasssupplies.co.uk/t-GlassReinforcedPlastics.aspx.
Greene, E. (1999). marine composites, second edition, eric greene associates incs, annapolis maryland
Jain, S., Kumar, R., & Jindal, U. P. (1992). Mechanical behaviour of bamboo and bamboo composites, Journal of Material Science, 27(17), 4598-4604.
Jung-Seok Kim, Sang-Jin Lee, Kwang-Bok Shin, (2007). Manufacturing and structural safety evaluation of a composite train carbody, Composite Structures, 78, 468–476.
Manik, P., Chrismianto, D., & Hadi, E. S. (2005). Kajian Teknis Penggunaan Serat Bambu Sebagai Alternatif Bahan Komposit Pembuatan Kulit Kapal, Ditinjau dari Kekuatan Bending dan Kekuatan Impact, Laporan Penelitian, Fakultas Teknik, Universitas Diponegoro.
Materials Sciences Corporation (2002), Composite Material Handbook Volume 3: Polymer Matrix Composite, material usage, design and analysis, MIL-HDBK-17 Secretariat, 500 Office Center Drive, Suite 250, Fort Washington, PA 19034.
Shukla, K. S., & Janardhan Prasad. (1988). Reconstituted wood from bamboo for structural uses. Journal of the Indian Academy of Wood Science, 19(1), 19-27.
Shukla, N. K., Singh, R. S., & Sanyal, S. N. (1988). Strength properties of eleven bamboo species and study of some factors affecting strength. of the Indian Academy of Wood Science, 19(2), 63-80.
Thwe, (2002). Effects of environmental aging on the mechanical properties of bamboo–glass fiber reinforced polymer matrix hybrid composites, Composites Part A: Applied Science and Manufacturing, 33(1), 43–52.
Xiaobo Li. (2004). Physical, Chemical, and Mechanical Properties of Bamboo and Its Utilization Potential for Fiberboard Manufacturing, A Thesis,Graduate Faulty of the Louisiana State University and Agriculture and Mechanical College.
Young, G. (2013), e-frienly surfboards: the bamboo evolution. http://www.bamboosurfboardshawaii.com.
DOI: http://dx.doi.org/10.15578/jkn.v15i2.2885
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