含有回收细骨料的土工聚合物砌筑砂浆的特性分析

IF 3.3 3区环境科学与生态学 Q2 ENVIRONMENTAL SCIENCES

Sustainability Pub Date : 2024-09-18 DOI:10.3390/su16188147

Elen Abuowda, Hilal El-Hassan, Tamer El-Maaddawy

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引用次数: 0

摘要

本研究评估了使用矿渣飞灰粘结剂和高达 100% 的再生细集料（RFA）制成的土工聚合物砌筑砂浆（GMM）的特性。根据 ASTM C91 标准，对每种 RFA 替代率的两种 GMM（即 N 型和 S 型）进行了配比，并对其机械、物理和耐久性能进行了测试。结果表明，与水泥基粘结剂相比，使用土工聚合物粘结剂可提高 GMM 的流动性、保水性、抗压强度、吸附性和耐磨性，但初凝时间最多可缩短 75%。随后添加的 RFA 对流动性、凝结时间、密度、吸水率、孔隙率和体积电阻率有负面影响，但增强了 GMM 的保水性、吸附性和耐磨性。它还使抗压强度、拉拔强度和抗折强度分别降低了 36%、44% 和 27%。此外，与 N 型砂浆相比，S 型砂浆的体积电阻率、吸附性和耐磨性都有所提高。根据多功能性能指标推断，掺入 100% RFA 的 GMM 混合料优于使用天然细集料（NFA）制成的土工聚合物或水泥基砌筑砂浆。这些发现强调了使用 RFA 制作的 GMM 在砌体建筑中的可持续性，与使用 NFA 制作的水泥基砂浆相比，GMM 无需进行水养护，同时还能保持相当甚至更优越的性能。

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Characterization of Geopolymer Masonry Mortars Incorporating Recycled Fine Aggregates

This study evaluates the characteristics of geopolymer masonry mortars (GMMs) made with slag–fly ash binder and up to 100% recycled fine aggregates (RFAs). For each RFA replacement rate, two types of GMMs, namely N and S types based on ASTM C91, were proportioned and tested for mechanical, physical, and durability properties. Results revealed that using geopolymeric binder enhanced the flow, water retention, compressive strength, sorptivity, and abrasion resistance of GMMs compared to cementitious counterparts but reduced the initial setting time by up to 75%. Subsequent RFA additions negatively affected the flow, setting time, density, water absorption, porosity, and bulk resistivity but enhanced the water retention, sorptivity, and abrasion resistance of GMM. It also reduced the compressive, pull-off, and flexural strengths by 36, 44, and 27%, respectively. Furthermore, S-type mortars exhibited improved bulk resistivity, sorptivity, and abrasion resistance compared to N-type counterparts. A multifunctional performance index deduced that the GMM mixes incorporating 100% RFAs were superior to geopolymeric or cementitious masonry mortars made with natural fine aggregates (NFAs). Such findings emphasize the sustainability of GMMs made with RFAs in masonry construction, eliminating the need for water curing while maintaining comparable or even superior properties compared to cement-based mortars made with NFAs.

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来源期刊

Sustainability ENVIRONMENTAL SCIENCES-ENVIRONMENTAL SCIENCES

CiteScore

6.80

自引率

20.50%

发文量

14120

审稿时长

17.72 days

期刊介绍： Sustainability (ISSN 2071-1050) is an international and cross-disciplinary scholarly, open access journal of environmental, cultural, economic and social sustainability of human beings, which provides an advanced forum for studies related to sustainability and sustainable development. It publishes reviews, regular research papers, communications and short notes, and there is no restriction on the length of the papers. Our aim is to encourage scientists to publish their experimental and theoretical research relating to natural sciences, social sciences and humanities in as much detail as possible in order to promote scientific predictions and impact assessments of global change and development. Full experimental and methodical details must be provided so that the results can be reproduced.