A study of blast furnace slag on the mechanical properties improvement and microstructure of hemihydrate phosphogypsum pretreated by calcium hydroxide

IF 6.5 2区工程技术 Q1 CONSTRUCTION & BUILDING TECHNOLOGY

Case Studies in Construction Materials Pub Date : 2024-12-13 DOI:10.1016/j.cscm.2024.e04121

Liya Zhao , Chunwei Wang , Seunghyun Na , Yuzhong Jin , Wenjing Kang , Jianping Zhu , Wenyan Zhang , Yadong Bian , Surendra P. Shah

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Abstract

Phosphogypsum (PG) pretreatment with calcium hydroxide (CH) effectively reduces environmental pollution but inversely decreases the mechanical strength of the hardened paste, which leads to its relatively low utilization rate in construction industry. Therefore, in order to enhance the properties of PG pretreated with CH, this study mainly investigate the addition of blast furnace slag (BFS) on the proeperties and microstructure of pretreated hemihydrate phosphogypsum by calcium hydroxide. The results indicated that the incorporation of BFS not only prolonged the setting time of PG, but also significantly enhanced mechanical properties and water resistance. The mechanical strength of samples with 40 % BFS was increased to 15.7 MPa at 28 days, which was 2.7 times compared with the reference sample. The analysis of phase composition change showed that the incorporation of BFS promoted the formation of new phases, such as ettringite (AFt) and calcium alumino silicate hydrate (C-A-S-H) gel, significantly altering the microstructure by affecting the relative content of hydration products. In addition, the incorporation of BFS could alter the crystallization behavior and morphology of gypsum, mainly caused by the dissolution rate of HPG particles and the nucleation and growth of gypsum due to the hydration environment change. Meanwhile, C-A-S-H gel encapsulated AFt and gypsum, imparting a dense microstructure characteristic. This study provides a theoretical foundation for optimizing PG and advances solid waste utilization on the development of sustainable building materials.

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高炉矿渣对氢氧化钙预处理半水磷石膏力学性能改善及显微组织的研究

用氢氧化钙（CH）对磷石膏（PG）进行预处理可以有效降低环境污染，但硬化后的膏体的机械强度反而降低，导致其在建筑行业的利用率较低。因此，为了提高CH预处理后的PG的性能，本研究主要研究了添加高炉渣（BFS）对氢氧化钙预处理后的半水磷石膏性能和微观结构的影响。结果表明，BFS的加入不仅延长了PG的凝结时间，而且显著提高了PG的力学性能和耐水性。添加40% % BFS的试样在28 d时的机械强度达到15.7 MPa，是参考试样的2.7倍。相组成变化分析表明，BFS的加入促进了钙矾石（AFt）和水合硅酸铝钙（C-A-S-H）凝胶等新相的形成，通过影响水化产物的相对含量显著改变了微观结构。此外，BFS的掺入会改变石膏的结晶行为和形貌，这主要是由于HPG颗粒的溶解速度和水化环境变化导致的石膏的成核和生长所致。同时，C-A-S-H凝胶包覆AFt和石膏，具有致密的微观结构特征。该研究为优化PG提供了理论基础，并为可持续建筑材料的发展提供了固体废物利用的基础。

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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来源期刊

Case Studies in Construction Materials Multiple-

CiteScore

7.60

自引率

19.40%

发文量

842

审稿时长

63 days

期刊介绍： Case Studies in Construction Materials provides a forum for the rapid publication of short, structured Case Studies on construction materials. In addition, the journal also publishes related Short Communications, Full length research article and Comprehensive review papers (by invitation). The journal will provide an essential compendium of case studies for practicing engineers, designers, researchers and other practitioners who are interested in all aspects construction materials. The journal will publish new and novel case studies, but will also provide a forum for the publication of high quality descriptions of classic construction material problems and solutions.