STRENGTH DEVELOPMENT IN CLAY-STABILIZED BRICKS WITH CEMENT AND RICE BY-PRODUCTS

Proceedings of International Structural Engineering and Construction Pub Date : 2024-03-01 DOI:10.14455/isec.2024.11(1).sus-13

Adriana Camacho, María Mena, Jorge Albuja-Sánchez, Dana Cruz, Mariela Anaguano-Marcillo

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Abstract

Bricks, traditionally used in the construction sector, use high energy and generate significant emissions of CO2 in their production process. As a result, as a lower-impact and low-cost alternative, this study analyzed different types of mixtures of soil, cement, rice husk, and rice husk ash to decrease the amount of cement, which was substituted gradually with rice husk and rice husk ash, to stabilize and improve the characteristics of clay, and to compare the effectiveness of earth stabilized bricks respect to traditional bricks. The research was carried out in three phases which were soil-cement, soil-cement-rice husk ash, and soil-cement-rice husk ash-rice husk, from which we concluded the best mixture consists in low-plasticity clay soil (CL), 14% Portland cement, 6% rice husk ash, and 4% rice husk, which in the simple compressive strength after 7 days of curing is not affected by the decrease in cement but increases by 0.41 MPa, which in addition shows better results in simple compression, absorption, and flexure tests than traditional bricks.

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使用水泥和大米副产品的粘土稳定砖的强度发展

砖块是建筑行业的传统材料，在生产过程中需要消耗大量能源并排放大量二氧化碳。因此，作为一种低影响、低成本的替代方法，本研究分析了不同类型的土壤、水泥、稻壳和稻壳灰混合物，以减少水泥用量，逐步用稻壳和稻壳灰替代水泥，稳定和改善粘土的特性，并比较土质稳定砖与传统砖的效果。研究分三个阶段进行，分别是土壤-水泥、土壤-水泥-稻壳灰、土壤-水泥-稻壳灰-稻壳，从中我们得出结论，最佳混合物由低塑性粘土（CL）、14% 的硅酸盐水泥、6% 的稻壳灰和 4% 的稻壳组成，在养护 7 天后，其简单抗压强度不受水泥用量减少的影响，反而增加了 0.41 兆帕，此外，在简单抗压、吸收和弯曲试验中，其结果均优于传统砖块。

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Proceedings of International Structural Engineering and Construction

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