水泥和椰壳纤维夯土施工

Saurav Sharma, Surendra Kumar Sharma, Devesh Jaysawal
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摘要

本文旨在通过分析夯土块体的抗压和抗拉强度、密度和耐久性,同时考虑到椰壳伸长率和水泥含量的影响,研究夯土块体的岩土力学性能。具体分析如下:a) coir %和延伸率对OMC和MDD的影响,b)对样品稠度的影响,c)水泥和coir的联合抗压强度影响,d)水泥和coir的联合抗拉强度影响。本研究的目的是确定夯土块体稳定剂的最佳值,以改善其岩土力学性能,同时满足可持续性原则。实验采用8%的水泥作为稳定剂,8%的椰胶作为增强剂,长度从20 mm到40 mm不等。试验结果表明,夯土块体的干抗压强度在填充长度为20mm、填充量为1%时有所提高,随着填充长度和填充量的增加,干抗压强度逐渐降低。此外,当椰壳长度从20 mm增加到40 mm时,强度比下降约3.05% ~ 6.27%。上述结果表明,椰壳长度为20 mm时,改善夯土块体力学性能的最佳配筋值为1%。然而,重要的是要注意,在确定稳定剂和增强剂的最佳值时,还应考虑该技术的可持续性。总体而言,研究表明,使用椰壳加固和水泥稳定是改善夯土块体岩土力学性能的有效方法。然而,需要进一步的研究来优化椰壳的百分比和长度,以达到预期的强度性能,同时确保可持续性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Rammed Earth Construction Using Cement & Coir Fibers
The paper aims to investigate the geotechnical and mechanical properties of rammed earth blocks by analyzing their compressive and tensile strength, density, and durability, while taking into account the effects of coir elongation and cement content. The specific aspects that were analyzed in the study are as follows:a) Effect of coir % & elongation on OMC and MDD, b) Effect on Consistency of sample, c) Combined effect of cement and coir on compressive strength, d) Combined effect of cement and coir on tensile strength. The objective of this investigation is to determine the optimum value of stabilizer for rammed earth blocks that will improve their geotechnical and mechanical properties while also fulfilling the principles of sustainability. The experiment used 8% cement as a stabilizer and 8% coir as reinforcement in lengths ranging from 20 mm to 40 mm.  Based on the results of the experiment, it was found that the characteristic dry compressive strength of the rammed earth blocks improves up to 1% coir of 20 mm length, and then gradually decreases as the length and percentage of coir increase. In addition, the strength ratio drops by about 3.05%–6.27% as the coir length increases from 20 mm to 40 mm.These results suggest that the optimum value of coir reinforcement for improving the mechanical properties of rammed earth blocks is 1% with a length of 20 mm. However, it is important to note that the sustainability of the technique should also be considered when determining the optimum value of stabilizer and reinforcement.  Overall, the investigation demonstrates that the use of coir reinforcement along with cement stabilization can be an effective approach for improving the geotechnical and mechanical properties of rammed earth blocks. However, further research is needed to optimize the coir percentage and length to achieve the desired strength properties while ensuring sustainability.
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