Investigation of Water Absorption for Concrete Using Supplementary Materials

Gabriel Ghewa, P. Suprobo, D. Irawan, Sutrisno Wahyuniarsih, Tambusay Asdam
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引用次数: 4

Abstract

Concrete’s durability is the key factor that affects the service life of the concrete structure. One factor that affects the durability properties of concrete is its pore structure, which can be investigated by analyzing the materials’ absorption rate. For the struc-tures with direct contact with water, water absorption can change the pore structure’s behavior, affecting the durability of the conc in the long term rate. It is important to research to find the water absorption properties of concrete with different mixtures. This research investigates the rate of absorption of concrete by using fly ash and silica fume. Based on secondary absorption properties, the result shows that 15% fly ash in normal concrete increases the resistance to water penetration by 23%. The usage of 5% Silica Fume increases the resistance by 11.8%. The usage of 5% silica fume + 10% fly ash increases the resistance by 16.2%. It shows that the use of supplementary materials in concrete increases the resistance of water penetration. In this research, the usage of 15% fly ash as cement replacement shows the best result.
补充材料对混凝土吸水性能的影响
混凝土耐久性是影响混凝土结构使用寿命的关键因素。影响混凝土耐久性的因素之一是混凝土的孔隙结构,这可以通过分析材料的吸收率来研究。对于直接接触水的结构,吸水会改变孔结构的行为,长期影响孔结构的耐久性。研究不同配合比混凝土的吸水性能具有重要意义。研究了粉煤灰和硅灰对混凝土吸收率的影响。基于二次吸收性能,结果表明,普通混凝土掺加15%粉煤灰,抗水渗透能力提高23%。5%硅粉的使用使电阻增加11.8%。5%硅粉+ 10%粉煤灰的使用可使阻力增加16.2%。结果表明,在混凝土中掺入补充材料可以提高混凝土的抗水渗透能力。在本研究中,以掺量为15%的粉煤灰替代水泥效果最好。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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