Material Penyusun dan Formula Campuran Beton untuk Produk PCI Girder
DOI:
https://doi.org/10.24002/senapas.v2i1.9256Keywords:
Concrete, Aggregate, Testing, Fly Ash, EfficiencyAbstract
Abstract — Concrete is a composite building material made from fine aggregate (sand), coarse aggregate (split), cement as a binder, water, concrete admixtures, and additional admixtures such as fly ash, used as needed. Material testing on concrete is divided into two categories: fine aggregate testing and coarse aggregate testing. Fine aggregate testing includes mud content, organic content, fine modulus, unit weight, specific gravity, and absorption rate. Meanwhile, coarse aggregate testing includes mud content, grading to determine coarseness, unit weight, specific gravity, and absorption rate. The purpose of this study is to determine the impact of using fly ash on the constituent materials and concrete mix formulas for PCI Girder products. SNI method is used for the Job Mix Formula (JMF) mixture in this research. The effectiveness of concrete is measured by the ability of the mix to achieve or exceed the specified strength target. In this context, Trial Mix 1 is superior because it achieves higher strength. However, in terms of cost efficiency, Trial Mix 2 is more economical and sustainable, although it has lower strength but still meets the design target. Trial Mix 2 is considered more efficient overall because it meets the strength target at a lower cost and promotes the use of more sustainable materials.
References
M. D. Alfian Hendri Umboh, "Jurnal Sipil Statik Vol.2 No. 7, November 2014," Pemanfaatan Abu Terbang (FLY ASH) dari PLTU II SULAWESI UTARA SEBAGAI Substitusi Parsial Semen terhadap kekuatan tekan beton , pp. 325-328, 2014.
L. I. Eko Bagus Saputra, "Jurnal Media Komunikasi Dunia Ilmu Sipil," Pengaruh Abu , pp. 67-71, 2019.
M. E. Elia Hunggurami, "Jurnal Teknik Sipil," PERBANDINGAN DESAIN CAMPURAN BETON NORMAL MENGGUNAKAN SNI 03-2834-2000 DAN SNI 7656:2012, pp. 165-172, 2017.
A. O. Irlan, G. Kurniawati and M. Sofyan, "Tinjauan Karakteristik Bahan Penyusun Beton Berpori dengan Penggunaan Fly ash dan Superplasticizer untuk Perkerasan Jalan Ramah Lingkungan," jurnal.itpln.ac.id, 2020.
A. M. Adiasa, D. K. Prakoso, J. U. D. Hatmoko, and T. D. Santoso, "EVALUASI PENGGUNAAN BETON PRECAST DI PROYEK KONSTRUKSI," Jurnal Karya Teknik Sipil, vol. 4, no. 1, pp. 126-134, Jun. 2014
F. A. &. D. Pertiwi, "Pengaruh Variasi Fly ash Sebagai Pengganti Sebagian Pasir untuk beton mutu 42 Mpa," pp. 1-7.
B. B. A. &. A. C. F.M. Irfan, "Pengaruh PH air dan penambahan Fly ash pada kekuatan tekan beton fc 35 MPA," pp. 1-7, 2022.
A. Prayogi, "Pengaruh campuran abu sekam padi dan abu arang tempurung sebagai pengganti sebagian agregat halus terhadap kekuatan tekan beton," pp. 1-9, 2021.
M. D. &. R. S. W. Adrian Philip Martinus, "Jurnal Sipil Statik Vol. 3 No. 11 November 2015," Pengaruh Penambahan abu terbang (fly ash) terhadap kuat tarik belah beton, p. 8, 2015.
M. Setiawati, "Fly ash sebagai bahan pengganti semen pada beton," p. 8.
PT PLN (Persero) Pembangkitan Tanjung Jati B, " mengoptimalisasi pemanfaatan fly ash dan bottom ash sebesar 90% serta pengurangan 126.252 m2 konsumsi air demin setiap tahun.," 2024.
Downloads
Published
Issue
Section
License
Copyright (c) 2024 Brigitha rasendriya; Baskoro Abdi Praja
This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.
