# Geopolymer Modified with Insoluble Calcite and Various Silica Fumes Originated from Different Manufacturing Processes

**Authors:** Yong Xu, Xiaonan Wang, Lilin Yang, Yang Liu, Tong Gao, Han Li, Yukai Wang, Ning Xie, Jing Meng, Jinping Ou, Wenshou Wang

PMC · DOI: 10.3390/ma18122795 · 2025-06-13

## TL;DR

This study explores how different types of silica fume affect the properties of geopolymer materials when combined with insoluble calcite.

## Contribution

The study reveals that the reinforcement effect of silica fume on geopolymers depends on its crystallinity and activity, not just chemical composition.

## Key findings

- Mechanical properties of geopolymers are influenced by silica fume's crystallinity and activity.
- Hydration products vary depending on the reaction environment and silica fume type.
- The study provides new pathways for upcycling solid wastes in sustainable construction.

## Abstract

It has been proven that silica fume (SF), which is a by-product from the manufacturing of single-crystal silicon, is beneficial for enhancing the mechanical properties, durability, and workability of geopolymers, as it can be quickly dissolved and form silicate-based cementitious phases in alkaline environments. However, the reinforcement mechanism of SF on geopolymer remains unclear due to the chemical complexity of geopolymer and the variety of SF types. Additionally, the solubility of calcite in an alkali environment is quite limited, and thus the formation of the amorphous calcium-based gels will be thwarted due to the lack of soluble calcium ions. Most importantly, with the development of the single-crystal industry, the amorphous silica content, crystallinity, and trace elements of SF itself have changed, which blocks the understanding of the activation mechanism of geopolymers combined with SF and insoluble calcite. To unveil the underlying modification mechanisms of SF on geopolymer materials along with insoluble calcite, in this study, two types of SF were used as the fly ash replacement in a fly ash/limestone system to prepare geopolymer materials. The reinforcement effect significantly depends on the SF types even with similar particle size and chemical compositions. The results indicate that the mechanical properties of geopolymer materials modified with SFs are not only governed by the ratio and contents of Si, Ca, Al, and Mg in SFs but also depend on the crystallinity and activity of the SFs. The hydration products could be varied according to the reaction environment. The research results not only contribute to the optimization design and application of geopolymer materials but also pave new pathways for the upcycling use of solid wastes such as SF, low-grade fly ash, or even other aluminosilicate solid wastes to achieve sustainable development.

## Linked entities

- **Chemicals:** calcite (PubChem CID 10112), Si (PubChem CID 5461123), Ca (PubChem CID 271), Al (PubChem CID 104727), Mg (PubChem CID 888)

## Full-text entities

- **Chemicals:** silicate (MESH:D017640), Geopolymer (-), aluminosilicate (MESH:C049037), Mg (MESH:D008274), Calcite (MESH:D002119), Ca (MESH:D002118), Al (MESH:D000535), Si (MESH:D012825), silica (MESH:D012822)

## Figures

13 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12194912/full.md

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Source: https://tomesphere.com/paper/PMC12194912