A study on cob sample production and techniques

IF 0.4 Q4 ENGINEERING, CIVIL
Sangketa Sangma, D. Tripura, Arpan Deshmukh, Ayub Shaikh
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引用次数: 0

Abstract

This paper deals with the validation of cob sample production technique that replicates the on-site wall construction method. Cob cubes were prepared under confined and unconfined conditions with varying drop heights (0.50 m, 0.75 m and 1.0 m) and moulding water content (25.7% to 39.7%) by mass of soil. Prior to mass production of samples, a trial test was performed at a constant drop height of 0.75 m and varying water content. Based on the trial test results, other two drop heights of 0.50 m and 1.0 m were adopted for further validation. The effect of confinement, drop heights and moulding water content on compressive strength and density of cubes were studied. Test result shows maximum compressive strength and density ranging from 1.22 MPa to 1.31 MPa and 1.65 g/cc to 1.70 g/cc respectively at 33.7% water content and 0.75 m drop height with confined specimen being the highest. The strength and density values obtained satisfy the guidelines prescribed by some of the standards. Thus, the proposed technique for cob production may be adopted to achieve the desirable compressive strength and density for the particular soil used in the present study.
棒材样品制作及工艺研究
本文讨论了复制现场墙施工方法的棒材样品生产技术的验证。在不同滴高(0.50 m、0.75 m和1.0 m)和不同含水量(25.7% ~ 39.7%)的密闭和无密闭条件下制备玉米芯立方体。在大量生产样品之前,在0.75 m的恒定落差和不同的含水量下进行了试验测试。在试验结果的基础上,采用0.50 m和1.0 m两种落差高度进行进一步验证。研究了约束、落差高度和模态含水量对立方体抗压强度和密度的影响。试验结果表明,在含水率为33.7%、落差为0.75 m时,最大抗压强度为1.22 MPa ~ 1.31 MPa,最大抗压密度为1.65 g/cc ~ 1.70 g/cc,承压试样最大。得到的强度和密度值满足某些标准规定的准则。因此,可以采用所提出的技术来生产棒材,以达到本研究中使用的特定土壤所需的抗压强度和密度。
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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来源期刊
CiteScore
1.70
自引率
0.00%
发文量
28
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