Analysis of the Tensile Strength of Composite Material from Fiber Bags
Article Sidebar
Main Article Content
Abstract
Downloads
Article Details
COPYRIGHT POLICY
The author(s) of an article published in the Journal of Applied Sciences and Advanced Technology (JASAT) retains ownership of the intellectual property rights in work (s).
PUBLISHING RIGHTS
The author(s) of an article published in the Journal of Applied Sciences and Advanced Technology (JASAT) have unrestricted publication rights. The authors give the Journal of Applied Sciences and Advanced Technology (JASAT) the right to publish the article and designate the Faculty of Engineering Universitas Muhammadiyah Jakarta Publishing as the original publisher of the article.
LICENSING POLICY
JASAT is an open-access journal that follows the Creative Commons Non-Commercial 4.0 International License (CC BY-NC 4.0), which states that:
Under this license, the reusers must give appropriate credit, provide a link to the license, and indicate if changes were made. Users may do so in any reasonable manner, but not in any way that suggests the licensor endorses users or their use.
Please take the time to read the whole license agreement (https://creativecommons.org/licenses/by-nc/4.0/). As long as reusers follow the license conditions, the owner cannot withdraw these freedoms. The following components are included under this license:
Attribution: Users must provide appropriate attribution, including a link to the license, and indicate whether or not they made any modifications. Users are free to do so reasonably, but not in a manner that indicates the licensee approves of their usage.
NonCommercial: Users may not use the material for commercial purposes.
References
Matthews, F. L., & Rawlings, R. D. (1999). Composite materials: engineering and science. CRC press.
Mallick, P. K. (2007). Fiber-reinforced composites: materials, manufacturing, and design. CRC press.
Daniel, I. M., Ishai, O., Daniel, I. M., & Daniel, I. (1994). Engineering mechanics of composite materials (Vol. 3, pp. 256-256). New York: Oxford university press.
Muslim, J., Sari, N. H., & Sulistyowati, E. D. (2013). Analisis Sifat Kekuatan Tarik Dan Kekuatan Bending Komposit Hibryd Serat Lidah Mertua Dan Karung Goni Dengan Filler Abu Sekam Padi 5% Bermatrik Epoxy. Dinamika Teknik Mesin, 3(1).
Hadi, T. S., Jokosisworo, S., & Manik, P. (2016). Analisa Teknis Penggunaan Serat Daun Nanas Sebagai Alternatif Bahan Komposit Pembuatan Kulit Kapal Ditinjau Dari Kekuatan Tarik, Bending Dan Impact. Jurnal Teknik Perkapalan, 4(1).
Hariyanto, A. (2015). Peningkatan Kekuatan Tarik Dan Impak Pada Rekayasa Dan Manufaktur Bahan Komposit Hybrid Berpenguat Serat E-Glass Dan Serat Kenaf Bermatrik Polyester Untuk Panel Interior Automotive. Prosiding SNST Fakultas Teknik, 1(1).
Widiartha, I. G., Sari, N. H., & Sujita, S. (2012). Study Kekuatan Bending Dan Struktur Mikro Komposit Polyethylene Yang Diperkuat Oleh Hybrid Serat Sisal Dan Karung Goni. Dinamika Teknik Mesin, 2(2).
Azwar, E., Mufida, A., & Suprayogi, R. (2018). Analisis Reduksi Suara Dan Kuat Tarik Komposit Beton Serat Gedebok Pisang Hasil Delignifikasi Dengan Pelarut Natrium Hidroksida (NaOH). Jurnal Kelitbangan, 6(02), 105-119.
Sari, N. H., Catur, A. D., & Safii, A. (2019). Komposit Epoksi Diperkuat Serat Corypha Utan: Karakterisasi Morpologi, Kekuatan Tarik Dan kekuatan Lentur. Jurnal Energi Dan Manufaktur, 12(1), 27-32.
Diniardi, E., Ramadhan, A. I., & Basri, H. (2014). Analisis Kekuatan Mekanik Dan Struktur Mikro Pada Material Polimer Penyusun Kipas Radiator. Jurnal Teknologi, 6(1), 55-67.
Rahardja, I. B., Rikman, R., & Ramadhan, A. I. (2018). Analysis of Heat Transfer of Fiber Mesocarp of Palm Oil (Elaeis Guineensis Jacq) as Roof Building. Journal of Applied Sciences and Advanced Technology, 1(1), 1-8.
Diniardi, E., Ramadhan, A. I., Mubarok, R., & Basri, H. (2015). Analysis of mechanical properties connecting rod bolts outboard motor FT50CEHD. International Journal of Applied Science and Engineering Research, 4(5), 665-670.
Stalin, B., & Ramkumar, R. Mechanical Properties Of Bauhinia Racemosa Fiber Reinforced With Polymer Composites. International Journal of Applied Engineering Research, 10(51), 2015.
Rezaur Rahman, M., Hasan, M., Monimul Huque, M., & Nazrul Islam, M. (2010). Physico-mechanical properties of jute fiber reinforced polypropylene composites. Journal of Reinforced Plastics and Composites, 29(3), 445-455.
Joseph, K., Tolêdo Filho, R. D., James, B., Thomas, S., & Carvalho, L. H. D. (1999). A review on sisal fiber reinforced polymer composites. Revista Brasileira de Engenharia Agrícola e Ambiental, 3(3), 367-379.
Vignesh, V., Seetha, S., Priya, R. S., & Shankari, B. S. (2016). Mechanical properties of hybrid pineapple/coconut sheath fibre reinforced polyester composites. International Journal of research in Mechanical, Mechatronics and Automobile Engineering (URMMAE), 2(1), 16-22.
Yakub, A., Karmiadji, D. W., & Ramadhan, A. I. (2016). Optimasi Desain Rangka Sepeda Berbahan Baku Komposit Berbasis Metode Anova. Jurnal Teknologi, 8(1), 17-22.
Kaushal, V., & Guleria, S. P. (2016, March). Study of Tensile Strength and Mineralogical Behavior of Flyash–Lime-Gypsum Composite Reinforced with Jute Fibres. In National Conference on Innovations without limits in Civil Engineering (IWLCE 2016).