粉煤灰在常规混凝土中部分替代水泥的效果研究

Krishan Kumar, Ravi Kumar
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引用次数: 1

摘要

今天,世界各地的建筑工程师都在寻找一种材料来替代水泥作为混凝土的粘合材料,这种材料具有良好的粘合性能,易于获得,降低了生产的总体成本,同时又对环境友好。在现代建筑工业中,粉煤灰是满足所有这些要求的优良替代品,已被广泛接受。鉴于全球变暖,人们正尽一切努力减少二氧化碳的排放。水泥制造业是二氧化碳排放的主要贡献者,因为每生产一吨水泥,就会释放一吨二氧化碳。通过用具有火山灰特性的材料如粉煤灰代替水泥,水泥和混凝土行业可以共同满足建筑行业日益增长的需求,并有助于减少环境污染。本文的主要目的是确定粉煤灰在混凝土中以不同百分比替代水泥时的行为。研制了粉煤灰水泥替代率分别为0、12、24、36%的混凝土。对制备的试样进行了工作性试验、抗压强度试验、劈裂拉伸试验、弯曲强度试验和吸水试验。对所得结果进行了讨论和图解比较。当粉煤灰掺量为12%时,混凝土在长期强度参数发展方面表现优于其他任何情况。
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A Study on Effect of Partial Replacement of Cement by Fly Ash in Conventional Concrete
Today construction engineers all over the world are looking for an alternative to replace cement as a binding material in concrete by a material which would have good binding properties, easily available, reduce the overall cost of production, and at the same time would be environmental friendly. In modern construction industry, fly ash is an excellent alternative to meet all such required properties and has been widely accepted. In view of global warming, every effort is being made to reduce the emission of CO 2 to the environment. Cement manufacturing industries are major contributor in the emission of CO 2 as for every one ton of cement manufactured, one ton of carbon dioxide is released. By replacing cement with a material of pozzolanic characteristic, such as the fly ash, the cement and concrete industry together can meet the growing demand in the construction industry as well as help in reducing the environmental pollution. The main objective of this paper is to determine the behavior of fly ash, when it is used at varied percentage replacements in concrete as a replacement to cement. The concrete with 0, 12, 24, and 36% cement replacement by fly ash were produced in this research. Workability tests, Compressive strength tests, split tensile tests, flexural strength tests and water absorption tests were performed on a prepared samples. The results obtained are discussed and compared graphically. When 12% fly ash was used, it was seen concrete behaved better than any other case in respect to its long term strength parameters development.
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