一种经济工程胶凝复合材料(ECC),由细采石场砂和标称量的聚乙烯醇纤维制备

IF 0.5 4区 工程技术 Q4 CONSTRUCTION & BUILDING TECHNOLOGY
F. Khan, S. W. Khan, Imad Said, S. Hussain
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引用次数: 2

摘要

传统工程胶凝复合材料——ECC的生产需要消耗体积小且价格昂贵的超细硅砂(UFSS),最大粒径为250 μm,这对ECC的干收缩、成本和实际应用产生了负面影响。本研究开发了一种经济型ECC,采用普通采石场砂[QS],细度模量较低,FM = 2.2,最大粒径为2350 μm。采石场砂的粒度比UFSS大10倍,价格比UFSS低30倍。实验结果表明,用QS制备的ECC在破坏前表现出应变硬化现象,产生多个裂纹。QS的性能也在不同的温度制度下进行了检查,并观察到质量密度和抗压强度略有下降,高达200°C。在200°C之后,由于PVA纤维的熔化,抗压强度显著降低。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
An Economical Engineered Cementitious Composite (ECC) prepared with fine quarry sand and a nominal amount of PVA fibers
The production of conventional engineered cementitious composites – ECC consumes low-volume and expensive ultrafine silica sand [UFSS] – maximum size 250 μm, which negatively affecting dry shrinkage, cost and practical application of ECC. This study develops an economical ECC featuring ordinary quarry sand [QS] with a lower fineness modulus – FM = 2.2 and a maximum particle size of 2350 μm. The quarry sand particle size was ten times greater, and the price was 30 times lower than UFSS. The experimental finding was shown that ECC prepared with QS exhibited the strain hardening phenomenon, with multiple cracks produced, before failure. The performance of QS was also checked under different temperature regimes, and a minor decrease in the mass density and compressive strength was observed, up to 200°C. After 200°C, a significant decrease in compressive strength was found, due to the melting of the PVA fibers.
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来源期刊
Cement Wapno Beton
Cement Wapno Beton CONSTRUCTION & BUILDING TECHNOLOGY-MATERIALS SCIENCE, COMPOSITES
CiteScore
1.30
自引率
28.60%
发文量
0
审稿时长
>12 weeks
期刊介绍: The Publisher of the scientific bimonthly of international circulation, entitled "Cement-Wapno-Beton" ["Cement-Lime-Concrete"], is the Fundacja Cement, Wapno, Beton [Foundation Cement, Lime, Concrete]. The periodical is dedicated to the issues concerning mineral setting materials and concrete. It is concerned with the publication of academic and research works from the field of chemistry and technology of building setting materials and concrete
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