深入了解棒材施工中实施时间的优化:现场测试和抗压强度与干燥动力学

Karima Touati, Baraa Al Sahmarany, Malo Le Guern, Y. El Mendili, F. Streiff, S. Goodhew
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引用次数: 0

摘要

掌握施工时间是使乡土土方施工技术对现代客户具有吸引力的最重要因素。本文提出的工作对优化cob建筑的施工时间做出了贡献。因此,本文对双壁CobBauge体系下棒材干燥过程中力学性能的演变进行了研究。进行了实验室测试和现场测量,并描述了进一步的结果。在CobBauge原型建筑的建造过程中,体积含水量传感器被浸入其墙壁中。实验研究和讨论了棒材层抗压强度和克莱格冲击值随含水率的变化规律。这些研究表明,抗压强度和CIV与含水率相关,且随时间呈指数递减。本研究提出了一种评估棒材原位力学性能的新工具——克莱格冲击土测试仪。这与抗压强度有关,并且发现这两种特性之间存在线性关系。最后提出了模板剥离和再提升前应满足的适当抗压强度和CIV值。对于本研究的条件,这些值在大约27天后达到。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Insight into the Optimization of Implementation Time in Cob Construction: Field Test and Compressive Strength Versus Drying Kinetics
Mastering construction times is of paramount importance in making vernacular earth construction techniques attractive to modern clients. The work presented here is a contribution towards the optimization of the construction time of cob buildings. Therefore, this paper follows the evolution of a cob’s mechanical properties during its drying process in the case of a double-walling CobBauge system. Laboratory tests and in situ measurements were performed, and further results were described. Volumetric water content sensors were immersed in the walls of a CobBauge prototype building during its construction. The evolution of the cob layer’s compressive strength and Clegg Impact Value (CIV) as a function of its water content has been experimentally studied and discussed. These studies showed that compressive strength and CIV are correlated with water content, and both properties decrease exponentially with time. In this study, a new tool to evaluate cob’s mechanical performances in situ has been proposed, Clegg Impact Soil Tester. This was linked to compressive strength, and a linear relationship between these two properties was found. Finally, appropriate values of compressive strength and CIV to satisfy before formwork stripping and re-lifting were proposed. For this study’s conditions, these values are reached after approximately 27 days.
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