Performance of lime calcined clay cement-an experimental and microstructural evaluation

Sumedha Moharana, Priya Gupta
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引用次数: 0

Abstract

Abstract

Portland cement is widely used in the construction industry because of its reasonable strength bearing capacity under the load and hydraulic behaviour, but it emits 5% of global carbon dioxide. Calcium sulfoaluminate (CSA) cement is the alternative binder, which provides the same strength as Portland cement and reduces the emission of carbon dioxide. This paper presents the experimental investigation and microstructural study of two different mixes of CSA cement. Lab-based physical tests were conducted for CSA and ordinary Portland cement (OPC) cement for basic hydraulic characteristics (setting, fineness, specific gravity, etc.). The microstructural studies were done for 1, 7, and 28 days for OPC and CSA cement. The phase volume diagram for CSA cement has been formulated using hydration kinetics. Through microstructural analysis, it is found that the clinker formed from the proposed blend of binders has extremely satisfactory in terms of physical setting property and hydration compound formation.

石灰煅烧粘土水泥的性能——实验与微观结构评价
波特兰水泥因其在荷载和水力作用下的合理强度承载能力而在建筑业中广泛使用,但它排放的二氧化碳占全球的5%。硫铝酸钙(CSA)水泥是一种替代粘合剂,它提供了与波特兰水泥相同的强度,并减少了二氧化碳的排放。本文介绍了两种不同配比CSA水泥的试验研究和微观结构研究。对CSA和普通硅酸盐水泥(OPC)水泥的基本水力特性(凝结度、细度、比重等)进行了实验室物理测试。对OPC和CSA水泥进行了1、7和28天的微观结构研究。CSA水泥的相体积图是利用水化动力学制定的。通过微观结构分析,发现由所提出的粘结剂混合物形成的熟料在物理凝结性能和水化化合物形成方面具有非常令人满意的性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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