EFFECTS OF COMBINATIONS OF LIMESTONE POWDER AND METAKAOLIN ON MORTAR COMPRESSIVE STRENGTH DEVELOPMENT

IF 0.2 Q4 MULTIDISCIPLINARY SCIENCES
Thwet Thwet Win, Thanyarat Buasiri, W. Pansuk, L. Prasittisopin
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Abstract

Cement production is a major contributor to carbon dioxide (CO2) emissions, and concrete is one of the most widely used building materials in the world. To reduce CO2 emissions from cement, supplementary cementing materials have been widely introduced in mortar and concrete mixtures. This research will explore the mechanism that determines the development of compressive strength in mortar made with partly substituted cement and a mixture of limestone powder and laboratory-quenching heat-treated kaolinite clay (also called metakaolin). Metakaolin is rich in Southeast Asian countries and needs further investigation to adopt in cement systems. Limestone powder and metakaolin constitute 45% of the binding cement ingredient by weight (dry). The strength was evaluated using mortar, and the microstructure was determined using paste. The results show that at 28 days, the compressive strength of mortar containing 45% cement substitution by 15% limestone powder and 30% metakaolin with 1% PCE (per B45S 1:2) was 97% relative to the reference mortar. However, due to the impurities in metakaolin, its synergistic interaction is limited, which results in the compressive strength being lower than anticipated.
石灰石粉和偏高岭土的组合对砂浆抗压强度发展的影响
水泥生产是二氧化碳(CO2)排放的主要来源,而混凝土是世界上使用最广泛的建筑材料之一。为了减少水泥的二氧化碳排放量,人们在砂浆和混凝土混合物中广泛采用了辅助胶结材料。本研究将探讨决定用部分替代水泥和石灰石粉与实验室淬火热处理高岭土(又称偏高岭土)混合物制成的砂浆抗压强度发展的机理。偏高岭土在东南亚国家非常丰富,需要进一步研究在水泥系统中的应用。按重量计,石灰石粉和偏高岭土占粘结水泥成分的 45%(干)。使用砂浆对强度进行了评估,使用浆料对微观结构进行了测定。结果表明,在 28 天时,用 15%的石灰石粉和 30%的偏高岭土以及 1%的 PCE(按 B45S 1:2)替代 45%水泥的砂浆的抗压强度比参考砂浆高 97%。然而,由于偏高岭土中的杂质,其协同作用受到限制,导致抗压强度低于预期。
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来源期刊
Suranaree Journal of Science and Technology
Suranaree Journal of Science and Technology MULTIDISCIPLINARY SCIENCES-
CiteScore
0.30
自引率
50.00%
发文量
0
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