Compressive Creep and Ultrasonic Characterization of Adobe Bricks Stabilized with Quicklime, Portland Cement, and Date Palm Fibers

IF 2.3 3区工程技术 0 ARCHITECTURE

International Journal of Architectural Heritage Pub Date : 2023-10-06 DOI:10.1080/15583058.2023.2262954

Khedidja Himouri, Abdelmadjid Hamouine, Lamia Guettatfi

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Abstract

ABSTRACTAs ecological architecture and green buildings have become essential in the fight against climate change, earthen architecture has an undoubted role to play in achieving this goal because of its numerous benefits. To help providing a better understanding of the behavior of earthen materials to fulfill modern architectural needs and to preserve earthen heritages, this study aims to investigate the effect of stabilization using Portland cement and quicklime and that of reinforcement using date palm fibers on the compressive creep, ultrasonic properties, and swelling of adobes, besides their impacts on physical characteristics. One of the earthen heritages in Algeria is taken as a case study, and various adobe mixes were examined to attain this objective. The outcomes revealed that stabilization overall improved the properties of adobes, unlike the mutable impact of fibers. Stabilizers played an important role in reducing creep, while fibers reduced the creep of the unstabilized adobes and those with 6%PC-3%QL, but withdrew the positive effect that was offered by binders for adobes with 10%QL and 3%PC-6%QL. Water absorption and swelling were reduced by stabilization, but both increased with the presence of fibers. The changes in ultrasonic characteristics showed a good correlation with those of compressive strength.KEYWORDS: Adobe brickscompressive creepcompressive strengthdate palm fibersPortland cementquicklimeswellingultrasonic propertieswater absorption AcknowledgmentsThe authors are deeply grateful to the west-public-works-laboratory (LTPO) unit of Bechar state and to the staff of the laboratory, in particular to Dr. RIKIOUI Tayeb, whose hospitality, support, and favorable atmosphere made this research possible.Disclosure statementNo potential conflict of interest was reported by the author(s).

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生石灰、波特兰水泥和椰枣纤维稳定的土坯砖的压缩蠕变和超声表征

【摘要】随着生态建筑和绿色建筑在应对气候变化中变得越来越重要，土建筑因其众多的优势在实现这一目标方面发挥着毋庸置疑的作用。为了更好地理解土质材料在满足现代建筑需求和保护土质遗产方面的行为，本研究旨在探讨波特兰水泥和生石灰的稳定以及椰枣纤维的加固对土质材料的压缩蠕变、超声波性能和膨胀的影响，以及它们对土质材料物理特性的影响。以阿尔及利亚的一处土质遗产为例，对各种土坯混合物进行了研究，以实现这一目标。结果表明，与纤维的可变影响不同，稳定性总体上改善了土坯的性能。稳定剂对降低蠕变有重要作用，而纤维对不稳定土坯和6%PC-3%QL土坯的蠕变有一定的降低作用，但抵消了粘结剂对10%QL和3%PC-6%QL土坯的积极作用。稳定性降低了吸水率和膨胀率，但纤维的存在使两者都增加了。超声特性的变化与抗压强度的变化具有良好的相关性。关键词:土坯砖;抗压蠕变;抗压强度;红棕榈纤维;;;;;;;;;披露声明作者未报告潜在的利益冲突。

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来源期刊

International Journal of Architectural Heritage 工程技术-工程：土木

CiteScore

7.20

自引率

12.50%

发文量

审稿时长

>12 weeks

期刊介绍： International Journal of Architectural Heritage provides a multidisciplinary scientific overview of existing resources and modern technologies useful for the study and repair of historical buildings and other structures. The journal will include information on history, methodology, materials, survey, inspection, non-destructive testing, analysis, diagnosis, remedial measures, and strengthening techniques. Preservation of the architectural heritage is considered a fundamental issue in the life of modern societies. In addition to their historical interest, cultural heritage buildings are valuable because they contribute significantly to the economy by providing key attractions in a context where tourism and leisure are major industries in the 3rd millennium. The need of preserving historical constructions is thus not only a cultural requirement, but also an economical and developmental demand. The study of historical buildings and other structures must be undertaken from an approach based on the use of modern technologies and science. The final aim must be to select and adequately manage the possible technical means needed to attain the required understanding of the morphology and the structural behavior of the construction and to characterize its repair needs. Modern requirements for an intervention include reversibility, unobtrusiveness, minimum repair, and respect of the original construction, as well as the obvious functional and structural requirements. Restoration operations complying with these principles require a scientific, multidisciplinary approach that comprehends historical understanding, modern non-destructive inspection techniques, and advanced experimental and computer methods of analysis.