Capillary Absorption of NBRRI Interlocking Compressed Stabilized Earth Blocks

African Journal of Environment and Natural Science Research Pub Date : 2023-03-28 DOI:10.52589/ajensr-utmulkjh

Zingfat M.J., Mailafiya B.Y., G. J.D., Pyendang Z.S.

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Abstract

Buildings constructed without an adequate damp-proof membrane are usually affected by a lot of problems and capillary action is one of them. Continuous research and development of stabilised earth, taking into account; its socio-economic concerns, structural suitability and environmental friendliness as a contemporary walling material have been an issue of growing interest. NBRRI has invested a lot of research time and effort in the development of CSEB technology. This CSEB when used for construction is subjected to conditions that expose it to water and sound. All these conditions are important considerations when designing and constructing a building for a particular purpose. Therefore, this study was aimed at producing standard NBRRI CSEB to investigate the coefficients of capillary absorption. The laterite used for this study was sourced in Jos, Plateau state. And also Dangote ordinary Portland cement was used for the stabilisation. The results show that an average amount of water absorbed within 10 minutes of exposure is up to a tenth of the block's total mass, indicating high water absorption at 5% cement stabilisation of the classified silty sand used.

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NBRRI联锁压缩稳定土块的毛细吸收

没有适当防潮膜的建筑物通常会受到许多问题的影响，毛细作用就是其中之一。不断研究开发稳定土，兼顾;它的社会经济问题、结构适用性和环境友好性作为当代墙体材料已经成为人们越来越感兴趣的问题。NBRRI在CSEB技术的开发上投入了大量的研究时间和精力。这种CSEB在用于建筑时受到暴露于水和声音的条件的影响。在为特定目的设计和建造建筑物时，所有这些条件都是重要的考虑因素。因此，本研究旨在制备NBRRI CSEB标准品，考察其毛细管吸收系数。本研究使用的红土来自高原州的乔斯。同时采用丹格特普通波特兰水泥进行稳定。结果表明，暴露10分钟内的平均吸水量可达块体总质量的十分之一，表明所使用的分类粉砂在5%水泥稳定下具有较高的吸水率。

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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African Journal of Environment and Natural Science Research

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