Flexural behavior of RC structural elements made by geopolymer concrete

S. Srinidhi, T. Srinivas
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引用次数: 12

Abstract

The conception of Ordinary Portland Cement (OPC) diffuses CO2 into the air. Fly ash, which is a result acquired from coal industry, and replacement of OPC utilized in the construction. It is rich in silicate gel with alkaline solution to produce great cement. Expansion in fly ash fineness progresses the compressive strength and reduces the porosity. This investigation aims to study the flexural behavior of geopolymer concrete of M 30 grade and compares the same with OPC beam and column, to obtain the required compressive strength, 15% of GGBS is added to fly ash used in GPC, six (4GPC+2OPC) reinforced concrete beams and columns of size 150mm × 150 mm × 1200 mm were tested and cured under ambient temperature. Geopolymer concrete was made from flyash and ggbs which are byproducts of steel and thermal industries. The outcomes show that there is a rise in flexural strength, service load and peak load of GPC beams and columns than OPC beams and columns.
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地聚合物混凝土RC结构构件的受弯性能
普通硅酸盐水泥(OPC)的概念是将二氧化碳扩散到空气中。粉煤灰是煤炭工业排放的产物,是建筑中使用的OPC的替代品。它是富含硅酸盐的凝胶,用碱性溶液生产优质水泥。粉煤灰细度的膨胀提高了抗压强度,降低了孔隙率。本研究旨在研究m30级地聚合物混凝土的抗弯性能,并将其与OPC梁柱进行比较,为获得所需的抗压强度,在GPC使用的粉煤灰中加入15%的GGBS,对6根(4GPC+2OPC)尺寸为150mm × 150mm × 1200mm的钢筋混凝土梁柱进行了常温养护试验。地聚合物混凝土是由钢铁和热力工业的副产品粉煤灰和矿渣制成的。结果表明:GPC梁柱的抗弯强度、使用荷载和峰值荷载均高于OPC梁柱;
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