Kajian Kuat Lekat Pada Beton Variasi Limbah Granit Sebagai Substitusi Parsial Agregat Kasar
DOI:
https://doi.org/10.61132/konstruksi.v2i4.516Keywords:
Recycled concrete aggregate, Granite waste, Bond strengthAbstract
Infrastructure development contributes to increasing the competitiveness of domestic products, employment energy absorption, and regional growth. Therefore, a strong, rigid and stable construction is needed. The use of materials for construction needs to be considered, especially commonly used materials such as concrete. This research aims to analyze the effect of variations in granite content as a partial substitution for coarse aggregate on the bond strength of BRA (Concrete Recycled Aggregate) concrete. Experimental methods were used in this research. The concrete mix design uses a variety of granite waste with a content of 0%; 15%; 30%; and 45%. The test object used was a concrete cube with a side length of 20 cm. The bond strength of the concrete is tested using a Universal Testing Machine (UTM) and a dial gauge. Based on research, the maximum bond strength value is obtained at a granite content of 30%. The addition of granite waste causes an increase in the bond strength value. The bond strength value of concrete when slip occurs is 0.25 mm at 0% granite content; 15%; 30%; and 45% each valued at 14.61 MPa; 15.44 MPa; 18.62 MPa; and 17.15 MPa. Concrete bond strength value at maximum load at 0% granite content; 15%; 30%; and 45% each valued at 22.42 MPa; 22.59 MPa; 24.01 MPa; and 23.12 MPa.
References
American Concrete Institute. (1987). ACI Committee 363 high strength concrete. American Concrete Institute.
American Society for Testing and Materials. (2006). ASTM C33 standard specification for concrete aggregates. American Society for Testing and Materials.
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. American Society for Testing and Materials.
American Society for Testing and Materials. (2011). ASTM C40 standard test method for organic impurities in fine aggregates for concrete. American Society for Testing and Materials.
American Society for Testing and Materials. (2012). ASTM C127 standard test method for density, relative density (specific gravity), and absorption of coarse aggregate. American Society for Testing and Materials.
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. American Society for Testing and Materials.
American Society for Testing and Materials. (2017). ASTM C128 standard test method for density, relative density (specific gravity), and absorption of fine aggregate. American Society for Testing and Materials.
Badan Standarisasi Nasional. (2019). SNI 2847-2019 tentang persyaratan beton struktural untuk bangunan gedung dan penjelasan. Badan Standarisasi Nasional.
Nur, S. (2024). Kajian kuat lekat dan kapasitas penjangkaran tulangan pada beton bubuk reaktif dengan silica fume 15%, pasir kuarsa 30%, dan variasi kadar fly ash sebagai substitusi parsial semen (Skripsi S1 Teknik Sipil). Universitas Sebelas Maret, Surakarta.
Sunarmasto. (2007). Tegangan lekat baja tulangan (polos dan ulir) pada beton. Gema Teknik, 10(2), 76–82.
The International Union of Laboratories and Experts in Construction Materials, System, and Structure. (1983). RILEMCEB RC6 (1983) recommendations for the testing and use of construction materials. RILEM.
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