1. Estimating the relationships between initial constituent molar ratios and physical–mechanical properties of RCFP-GBFS based geopolymers.
- Author
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Huo, Wangwen, Zhu, Zhiduo, Sun, He, Yang, Liu, and Zhang, Chen
- Subjects
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CONSTRUCTION & demolition debris , *INDUSTRIAL wastes , *WASTE products , *PHYSICAL mobility , *COMPRESSIVE strength , *POLYMERS , *INORGANIC polymers - Abstract
• Green cementitious materials were prepared by synergistically utilizing demolition waste and industrial waste. • The variation pattern between the macro-properties of geopolymer and initial constituent molar ratios was comprehensively summarized. • The strong linear correlations were observed between initial component molar ratios and both flowability and compressive strength. Recycling waste materials for geopolymer synthesis offers a sustainable solution for reducing environmental impact from construction. In this study, the recycled concrete fine powder (RCFP) and granulated blast furnace slag (GBFS) were used to synthesize geopolymers, and the effects on physical performance, compressive strength, and microstructure were investigated. Building upon the existing results, the quantitative relationships between initial constituent molar ratios (Si/Al, Na/Al, and Si/Ca) and macro-properties of the geopolymers were explored and the influence mechanisms were analyzed. The findings demonstrate that the incorporation of GBFS significantly reduced setting time and increased compressive strength. Additionally, the blending of GBFS effectively enhanced the geopolymerization degree and generated more mixed gelling products of C-(A)-S-H, N-A-S-H and (C, N)-A-S-H, resulting in a refined internal structure of the matrix. The results revealed that the relationships between initial constituent molar ratios and macro-properties were not straightforward and involved multiple models. The initial and final setting times showed complex non-linear correlations with initial component molar ratios, while strong linear correlations were observed between initial component molar ratios and both flowability and compressive strength. A non-linear relationship was found between the setting time and fluidity. The outcomes contribute to the understanding of the interplay between composition, property, and structure in geopolymer materials and provide guidance for the composition design of geopolymers. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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