Influence of Agricultural Biomass Fly Ash Cement Substitution on the Carbonation of Cement and Polymer-Cement Composites

Structure and Environment Pub Date : 2020-06-01 DOI:10.30540/sae-2020-007
D. Stańczak, B. Jaworska
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引用次数: 1

Abstract

Abstract Practical use of a new type of combustion waste such as an agricultural biomass fly ash in the building materials requires an assessment of its performance. The paper presents the investigation results on the influence of cement substitution (5% and 30%) by this ash on the cement and polymer-cement composites resistance to carbonation. The composites resistance was assessed on the basis of carbonation process over time (up to 360 days) using the phenolphthalein method. It was found that fly ash from agricultural biomass increases the susceptibility to carbonation of polymer-cement composites to a lesser extent than cement composites compared to composites containing siliceous coal fly ash.
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农业生物质粉煤灰水泥替代对水泥及聚合物-水泥复合材料碳化的影响
摘要农业生物质飞灰等新型燃烧废弃物在建筑材料中的实际应用,需要对其性能进行评估。本文介绍了该灰替代水泥(5%和30%)对水泥和聚合物水泥复合材料抗碳化性能影响的研究结果。利用酚酞法对复合材料的耐受性进行了评估,评估的基础是碳化过程随着时间的推移(长达360天)。研究发现,与含硅煤粉煤灰的复合材料相比,来自农业生物质的粉煤灰增加聚合物-水泥复合材料对碳化的敏感性的程度小于水泥复合材料。
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Structure and Environment
Structure and Environment
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