Influence of Anti-cracking Fiber on Properties of Traditional Sticky Rice-lime Mortar

IF 0.8 4区 化学 0 ARCHAEOLOGY Studies in Conservation Pub Date : 2022-07-04 DOI:10.1080/00393630.2022.2091730
Jiahui Zhang, G. Wei, Hu Zhou
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Abstract

ABSTRACT Traditional sticky rice-lime mortar plays an important role in the restoration of Chinese historical buildings. However, its application in ancient building restoration is restricted due to some shortcomings of lime-based materials such as high shrinkage, low hardness in the early phase, cracking during carbonation, etc. In order to make better use of sticky rice-lime mortar, the research presented in this article evaluates the influence of admixtures (flax fiber, polypropylene fiber, and paper fiber) on the properties of traditional sticky rice-lime mortar by testing compressive and flexural strengths, surface hardness, drying shrinkage, water absorption, freezing-thawing cycles, carbonation degree, and through performing X-ray diffraction analysis (XRD) and scanning electron microscopy (SEM). Results revealed that three types of fibers ameliorated the mechanical strength, anti-shrinkage performance, durability, and microstructure of traditional sticky rice-lime mortar. 1.5% paper fiber was the most effective admixture to increase the mechanical properties and reduce the water absorption rates, and it improved the freeze–thaw cycles by more than 10 times; the incorporation of polypropylene fiber significantly reduced the drying shrinkage rates. In the practice of brick-stone cultural heritage conservation, it is recommended to consider adding paper fibers to improve the comprehensive performance of traditional sticky rice-lime mortar and adding polypropylene fibers to improve shrinkage resistance.
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防裂纤维对传统糯米石灰砂浆性能的影响
摘要传统的糯米石灰砂浆在中国历史建筑修复中发挥着重要作用。然而,由于石灰基材料的收缩率高、早期硬度低、碳化过程中开裂等缺点,它在古建筑修复中的应用受到限制。为了更好地利用糯米石灰砂浆,本文通过测试抗压强度、抗弯强度、表面硬度、干缩性、吸水性、冻融循环、碳化程度,评估了掺合料(亚麻纤维、聚丙烯纤维和纸纤维)对传统糯米石灰砂浆性能的影响,并通过进行X射线衍射分析(XRD)和扫描电子显微镜(SEM)。结果表明,三种纤维均能改善传统糯米石灰砂浆的力学强度、抗收缩性能、耐久性和微观结构。1.5%的纸纤维是提高力学性能和降低吸水率的最有效的掺合料,它使冻融循环提高了10倍以上;聚丙烯纤维的掺入显著降低了干燥收缩率。在砖石文化遗产保护实践中,建议考虑添加纸纤维以提高传统糯米石灰砂浆的综合性能,并添加聚丙烯纤维以提高抗收缩性。
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来源期刊
Studies in Conservation
Studies in Conservation 化学-分析化学
CiteScore
1.80
自引率
12.50%
发文量
73
审稿时长
>12 weeks
期刊介绍: Studies in Conservation is the premier international peer-reviewed journal for the conservation of historic and artistic works. The intended readership includes the conservation professional in the broadest sense of the term: practising conservators of all types of object, conservation, heritage and museum scientists, collection or conservation managers, teachers and students of conservation, and academic researchers in the subject areas of arts, archaeology, the built heritage, materials history, art technological research and material culture. Studies in Conservation publishes original work on a range of subjects including, but not limited to, examination methods for works of art, new research in the analysis of artistic materials, mechanisms of deterioration, advances in conservation practice, novel methods of treatment, conservation issues in display and storage, preventive conservation, issues of collection care, conservation history and ethics, and the history of materials and technological processes. Scientific content is not necessary, and the editors encourage the submission of practical articles, review papers, position papers on best practice and the philosophy and ethics of collecting and preservation, to help maintain the traditional balance of the journal. Whatever the subject matter, accounts of routine procedures are not accepted, except where these lead to results that are sufficiently novel and/or significant to be of general interest.
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