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Specifications
| Appearance: | White powder |
| Particle Size: | 80 micron max |
| Assay: | 95% min |
| Pb: | 30 ppm max |
| As: | 3 ppm max |
| Cd: | 5 ppm max |
| Hg: | 5 ppm max |
Applications
Tricalcium silicon pentaoxide (CAS 12168-85-3), also known as tricalcium silicate or C₃S in cement chemistry, is a key component in construction materials and specialized industrial applications. It is primarily used in the production of Portland cement, where it contributes to the early strength development and setting characteristics of concrete. Beyond cement, it finds applications in refractory materials, ceramics, and coatings due to its high thermal stability and chemical resistance. It is also employed in biomedical research for bone regeneration and dental materials, where its bioactive calcium-silicate properties promote hydroxyapatite formation and support tissue mineralization.
Benefits
The benefits of tricalcium silicon pentaoxide stem from its reactivity with water, high strength contribution, and chemical stability. In cement and concrete applications, it provides rapid early hydration, leading to quicker setting times and faster strength gain, which is advantageous for construction efficiency. Its refractory and corrosion-resistant properties make it suitable for high-temperature and chemically aggressive environments. In biomedical applications, its bioactivity supports bone bonding and tissue regeneration, while its calcium and silicate release enhances mineralization. Its versatility and stability make it a reliable material for both industrial and research purposes.
Conclusion
Tricalcium silicon pentaoxide is a versatile compound with key applications in construction, ceramics, and biomedical materials. Its ability to contribute to early strength, chemical stability, and bioactivity makes it valuable across diverse industries. By supporting structural durability and tissue regeneration, it remains an essential component in industrial processes and advanced material research.
