Kuat lentur dan berat jenis beton ringan selular diperkuat serat kain pakaian bekas

A. D. Catur, P. D. Setyawan, Y. A. Padang, I. M. Nuarsa, A.A. A. Triadi

Abstract


Cellular lightweight concrete has an advantage in its specific gravity, with the presence of foam making it lighter. However, the presence of foam reduces its strength. Utilization of used clothing fibers is carried out to increase the flexural strength of cellular lightweight concrete and is useful for reducing environmental loads. Used clothing fibers are added to the cellular lightweight concrete in the amount of 0%; 0.3%; 0.6%; 0.9% and 1.2% of weight. Cellular lightweight concrete is also reinforced with steel wire mesh with a wire diameter of 0.5 mm with a side length of ¼ inch x ¼ inch.  With the addition of used clothing fibers increase the flexural strength and reduce the density of cellular lightweight concrete. The addition of steel wire mesh increases the flexural strength but increases the density of cellular lightweight concrete.

Keywords


Cellular Lightweight concrete fiber flexural

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References


ASTM, Annual book of ASTM standard, standard test method for flexural strength of hydraulic-cement mortars, 04(0), C 348-02, 2021.

Barnhard, Properties of cotton, barnhardt natural fibers, https://barnhardtcotton.net, 2021.

Dory, K., Why fast fashion needs to slow down, UN enviroment program, https://www.unep.org, 2018.

Gunawan, P., Wibowo, Mardiyanto, D., Pengaruh penambahan serat aluminium pada beton ringan dengan teknologi foam terhadap kuat tekan, kuat tarik dan modulus elastisitas, Jurnal Matriks Teknik Sipil, September, 213-220, 2013.

Haryanto, Y., Pengaruh serat limbah karpet terhadap kuat lentur balok beton ringan dari alwa, Techno, 17 (2), 073–078, 2016.

Kim, Y.J., Hu J., Lee, S.J., You B.H., mechanical properties of fiber reinforced lightweight concrete containing surfactan, Advances in Civil Engineering, 10(2), 1-8, 2010.

Marfranklin, M., Risdianto, Y., Pengaruh penambahan serat sabut kelapa pada pembuatan beton ringan cellular lightweight concrete, Rekayasa Teknik Sipil, 2(1), 2019.

Pamungkas, M.D., Risdianto Y., Pengaruh penambahan serat botol plastik sebagai bahan tambah pembuatan beton ringan seluler, Rekayasa Teknik Sipil, 1(1), 2020.

Perdana, A.O., Wahyuni, A.S., Elhusna, Pengaruh penambahan serat ijuk terhadap kuat tarik belah beton dengan faktor air semen 0,5, Jurnal Inersia, 7(2), 7-12, 2015.

Rochmah, N., Pengaruh serat ijuk sebagai bahan tambah terhadap kuat tarik belah beton, Jurnal Penelitian LPPM Untag Surabaya, 2(1), 52–56, 2017.

Sedaghatdoost, A., Amini, M., Mechanical properties of polyolefin fiber-reinforced light weight concrete, Civil Engineering Journal, 3(9), 759-765, 2017.

Zhang, P., Han, S., Serina, N., Wang, X.H., Fiber-reinforced concrete with application in civil engineering, Advances in Civil Engineering, 18(2), 1-4, 2018.

Zulfiara, M.H., Endarto, M.R., Experimental study on splitting test on light weight concrete using bamboo fiber as aggregate, ITS Journal Of Civil Engineering , 31(1), 2011.




DOI: https://doi.org/10.29303/dtm.v12i1.497

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Copyright (c) 2022 Agus Dwi Catur, Paryanto Dwi Setyawan, Yesung Allo Padang, AA Alit Triadi, I Made Nuarsa

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