Experimental Evaluation of Workability Compressive Strength and Freeze-Thaw Durability of Concrete Containing Expanded Clay Aggregates

S. Bensalem, M. Khouadjia, K. Abdou, A. Belkadi, O. Kessal
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引用次数: 2

Abstract

The development of the building materials industry in Algeria and worldwide has opened up new commercial opportunities for waste recovery. Using recycled materials and natural resources such as expanded clay aggregates are increasingly seen as a solution for the future to meet the gap between production, consumption and environmental protection. The present study investigates the effect of expanded clay aggregate (ECA) on a concrete slump, porosity, softening coefficient, compressive strength, and Freeze-thaw durability. Tests were conducted according to Russian National State Standard (GOST) 10060-2012 of concrete mixtures with expanded clay aggregate (ECA). A total of 7 mixtures were prepared. One is considered a reference mixture based on limestone aggregates. The other six mixtures were prepared by replacing the limestone aggregates with expanded clay aggregates, using two substitution rates (15%, 30% by weight) and three aggregates sizes (Sand 0/4, Gravel 8/16, and 16/25) while maintaining the same w/b ratio. The results indicate that ECAs can be used for concrete production. Furthermore, concrete containing 30% ECA (0/4) has the best properties and is the most freeze-thaw resistant than the other mixtures with ECA. 
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含膨胀粘土集料混凝土工作性、抗压强度和冻融耐久性试验评价
阿尔及利亚和全世界建筑材料工业的发展为废物回收开辟了新的商业机会。使用再生材料和自然资源,如膨胀粘土集料,越来越被视为未来满足生产、消费和环境保护之间差距的解决方案。本文研究了膨胀粘土骨料(ECA)对混凝土坍落度、孔隙度、软化系数、抗压强度和冻融耐久性的影响。试验按照俄罗斯国家标准(GOST) 10060-2012《膨胀粘土骨料混凝土混合料(ECA)》进行。共制备了7种混合物。一种是基于石灰石骨料的参考混合物。另外6种混合料是在保持相同w/b比的情况下,用膨胀粘土骨料代替石灰石骨料,使用两种替代率(15%、30%重量比)和三种骨料粒径(Sand 0/4、Gravel 8/16和16/25)制备的。结果表明,ECAs可用于混凝土生产。此外,含有30% ECA(0/4)的混凝土性能最好,比其他掺加ECA的混凝土抗冻融能力最强。
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审稿时长
8 weeks
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