一种测定辅助胶凝材料化学反应性的小规模热重法

Sarah L. Williams , Danielle N. Beatty , Wil V. Srubar III
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引用次数: 0

摘要

用补充胶凝材料(SCMs)部分取代普通硅酸盐水泥(OPC)是一种普遍而有效的方法,可以设计出比普通硅酸盐水泥混凝土混合物具有更低含碳和更高耐久性的混凝土混合物。然而,由于全球脱碳努力和混凝土行业的持续需求,飞灰(煤炭燃烧的副产品)和高炉矿渣(炼钢的副产品,)等常见工业SCMs的全球供应正在减少。新标准化的ASTM C1897快速、相关和可靠(R3)测试是测量潜在SCMs化学反应性的有效筛选方法。然而,样本数量要求阻碍了对新供应链管理来源的快速吞吐量筛选,而这些来源目前可能只能少量获得。本研究的目的是设计和验证一种小规模的改良R3测试,以实现新型SCMs的标准化表征和快速筛选。结果证实,使用本文开发和验证的热重分析方法,ASTM C1897 R3结合水方法可以在小得多的规模(即每次测试0.01g SCM)下以足够的精度进行。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A small-scale thermogravimetric method to measure the chemical reactivity of supplementary cementitious materials

Partial replacement of ordinary portland cement (OPC) with supplementary cementitious materials (SCMs) is a ubiquitous and effective approach to design concrete mixtures with lower embodied carbon and improved durability compared to plain OPC concrete mixtures. However, the global supply of common industrial SCMs, like fly ash (a byproduct of coal combustion) and blast-furnace slag (a byproduct of steelmaking), is dwindling due to global decarbonization efforts and sustained demand from the concrete industry. The newly standardized ASTM C1897 rapid, relevant, and reliable (R3) test is an effective screening method to measure the chemical reactivity of potential SCMs. However, the sample quantity requirements impede the rapid-throughput screening of new SCM sources that may currently be available only in small quantities. The objective of the current study is to design and validate a small-scale modified R3 test to enable standardized characterization and rapid-throughput screening of novel SCMs. The results substantiate that the ASTM C1897 R3 bound water method can be performed with sufficient accuracy at a much smaller scale (i.e., 0.01 g of SCM per test) using the thermogravimetric method developed and validated herein.

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