Kajian Keuletan pada Beton Variasi Limbah Granit Sebagai Substitusi Parsial Agregat Kasar
DOI:
https://doi.org/10.58192/ocean.v3i3.2412Keywords:
Granite Waste Concrete, Recycle Aggregate Concrete, ToughnessAbstract
Concrete is one of the most common construction materials used throughout the world. Concrete consists of three main components: cement, coarse aggregate, and fine aggregate. Coarse aggregate serves as the main structural component in concrete, providing strength and resistance to external loads. Currently, technological advancements in construction are rapidly progressing. Therefore, innovation in concrete production is necessary, one of which is recycled aggregate concrete. The aim of this research is to determine the effect of using granite waste as a partial substitute for coarse aggregate on toughness of concrete. The method used in this research is experimental method. In this study, the variation level of granite waste used in this study was 0%; 15% ; 30% ; and 45%. The objects used for this research are blocks with dimensions of 400x100x100 mm tested using a Universal Testing Machine. The results of this research show that the toughness value obtained from the results of toughness testing on concrete with varying levels of 0% granite waste; 15% ; 30% ; and 45% respectively, namely 1.9589 kNmm; 2.2362 kNmm; 2.4189 kNmm; and 2.2118 kNmm.
References
Albefanido, R., Farni, I., & Anggraini, R. (2023). Pengaruh penggunaan limbah keramik granite alam sebagai pengganti agregat kasar terhadap kuat tekan beton memadat sendiri (self compacting concrete). Padang.
American Concrete Institute. (1987). ACI Committee 363 High strength concrete. Amerika.
American Society for Testing and Materials. (2006). ASTM C33 Standard specification for concrete aggregates. Amerika.
American Society for Testing and Materials. (2010). ASTM C131 Standard test method for resistance to degradation of small-size coarse aggregate by abrasion and impact in the Los Angeles machine. Amerika.
American Society for Testing and Materials. (2011). ASTM C40 Standard test method for organic impurities in fine aggregates for concrete. Amerika.
American Society for Testing and Materials. (2012). ASTM C127 Standard test method for density, relative density (specific gravity), and absorption of coarse aggregate. Amerika.
American Society for Testing and Materials. (2015). ASTM C117-04 Standard test method for materials finer than 75-μm (No. 200) sieve in mineral aggregates by washing. Amerika.
American Society for Testing and Materials. (2017). ASTM C128 Standard test method for density, relative density (specific gravity), and absorption of fine aggregate. Amerika.
Badan Standarisasi Nasional. (2019). SNI 2847-2019 tentang persyaratan beton struktural untuk bangunan gedung dan penjelasan. Jakarta.
Bayrak, G., & Yilmaz, S. (2014). Granite based glass-ceramic materials. ACTA Physica Polonica A, No. 2, Proceedings of the 3rd International Congress APMAS2013. Turkey.
European Committee for Standardization. (1992). Eurocode 1992 Design of concrete structures. Inggris.
Gere, J. M., & Timoshenko, S. P. (2000). Mechanics of materials. MA: PWS Engineering.
Srinivas, K., Vijaya, S. K., & Jagadeeswari, K. (2020). Concrete with ceramic and granite waste as coarse aggregate. India.
Wibowo, Safitri, E., & Kamal, M. (2022). Kajian kuat kejut dan keuletan pada beton mutu tinggi memadat mandiri menggunakan bahan tambah metakaolin dengan variasi perbandingan alkali aktivator. Jurnal Program Studi Teknik Sipil, Fakultas Teknik, Universitas Sebelas Maret, 10(1), 1-12.
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