# Effect of Vanadium-Bearing Slag Aggregates on the Microstructure and Thermo-Mechanical Properties of Alumina Refractory Castables

**Authors:** Mathilda Derensy, Thorsten Tonnesen

PMC · DOI: 10.3390/ma19050983 · Materials · 2026-03-03

## TL;DR

This study explores how adding vanadium-bearing slag to refractory materials affects their structure and performance, comparing it to traditional materials.

## Contribution

The paper introduces the use of vanadium-bearing slags as sustainable alternatives in refractory castables and analyzes their unique microstructural and mechanical impacts.

## Key findings

- Vanadium-bearing slag aggregates alter the microstructure of castables, increasing porosity and heterogeneity.
- Slag 1 improves corrosion resistance but reduces mechanical strength, while Slag 2 enhances mechanical strength at lower replacement levels.
- Vanadium migrates and reacts with calcium aluminate phases during firing, forming new compounds like Ca(Al,V)2O4 and Ca(Al,V)4O7.

## Abstract

The incorporation of recycled metallurgical slags into refractory materials constitutes a promising approach to enhancing sustainability in the refractory industry. This study investigates the effect of vanadium-bearing slag aggregates as partial replacements for tabular alumina in castables and compares their behaviour with high-alumina and bauxite-based castables. Two vanadium-bearing slags with different mineralogical compositions were introduced in the 1–3 mm aggregate fraction with substitution up to 25 wt.%. Their effects on microstructure, thermo-mechanical performance, and corrosion resistance were evaluated. The introduction of vanadium-bearing slag significantly alters the microstructure of the castables, affecting their performance. Both slags displayed grains with higher porosity, microcracking, and heterogeneity compared with tabular alumina, but showed similarities to bauxite grains. Slag 1, enriched in calcium aluminate phases, provides limited mechanical strength but improved corrosion resistance due to improved bonding with the matrix. Slag 2, containing a higher spinel content, enhances mechanical strength, showing behaviour comparable with bauxite-based castables, particularly at 10 wt.% replacement. Vanadium is mainly present in metallic form and as Mg(Al,V)2O4 spinels in both slags. Upon firing, vanadium migrates toward the grain boundaries and reacts with the surrounding calcium aluminate phases to be incorporated in Ca(Al,V)2O4 and Ca(Al,V)4O7, while the spinel phase remains stable.

## Linked entities

- **Chemicals:** vanadium (PubChem CID 23990), calcium aluminate (PubChem CID 159415)

## Full-text entities

- **Chemicals:** Ca(Al,V)2O4 (-), Alumina (MESH:D000537), calcium aluminate (MESH:C035219), spinel (MESH:C111130), Vanadium (MESH:D014639)

## Full text

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## Figures

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## References

55 references — full list in the complete paper: https://tomesphere.com/paper/PMC12985498/full.md

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Source: https://tomesphere.com/paper/PMC12985498