The Effect of Microbes and Fly Ash to Improve Concrete Performance

Journal of Advanced Civil and Environmental Engineering Pub Date : 2021-11-12 DOI:10.30659/jacee.4.2.60-69

Adlizie Rifkianda Muhammad, J. J. Ekaputri, M. Basoeki

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Abstract

This paper presents the application of�fly ash�combining with microbes in concrete to reduce cement content.�A class F fly ash as cement replacementwas applied with ratios of 20%, 30%, 40%, and 50% to reduce hydration heat. Microbes from bacterial consortium were applied to as the filler to increase concrete compressive strength. The concrete mix design from SNI 03�2834�2000 was applied for a compressive strength target of 30 MPa. The mechanical test was carried out consisting compressive and tensile test.�Concrete�workability�and the heat hydration measurement were performed for fresh concrete.�The results showed that the maximum strength of 45.10 MPa was obtained from specimens with 30% fly ash content.�Application of microbes associated with�fly ash content of 40% showed the maximum strength of 48.47 MPa.�It was found that the tensile strength also increased with the application of�fly ash�and microbes.�Hydration temperature of concrete decreased with the increase of�the ash�content.�This proves that the application of�fly ash�and microbes in concrete can reduce the cement as well as increasing the concrete performance.

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微生物和粉煤灰对混凝土性能的改善作用

本文介绍了“粉煤灰”与微生物结合在混凝土中降低水泥掺量的应用。采用比例分别为20%、30%、40%和50%的A类粉煤灰替代水泥，以降低水化热。采用细菌联合体中的微生物作为填料，提高混凝土抗压强度。采用SNI 03—2834—2000的混凝土配合比设计，抗压强度目标为30 MPa。力学试验包括压缩试验和拉伸试验。对新拌混凝土进行了“混凝土和易性”和热水化测量。结果表明:粉煤灰掺量为30%时，试件的最大强度为45.10 MPa;粉煤灰掺量为40%时，微生物的最大强度为48.47 MPa。研究发现，粉煤灰和微生物的掺入也提高了材料的抗拉强度。混凝土水化温度随灰分的增加而降低。这证明在混凝土中掺入“粉煤灰”和微生物可以在减少水泥的同时提高混凝土的性能。

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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Journal of Advanced Civil and Environmental Engineering

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