YUJIANG INFO
Comparison of Chloride-Process and Sulfate-Process Titanium Dioxide
Titanium Dioxide (TiO?) is an essential pigment in modern industry and daily chemical applications, widely used in coatings, plastics, paper, inks, and cosmetics. Based on production processes, TiO? is mainly divided into chloride-process TiO? and sulfate-process TiO?. The two processes produce TiO? with different advantages and characteristics in terms of purity, performance, application, and environmental impact.
1. Comparison of Production Processes
Chloride-Process TiO?: Produced using titanium tetrachloride (TiCl?) as an intermediate, which is reduced and purified under high-temperature conditions. This process requires high-purity titanium ores (such as rutile), has high reaction efficiency, lower energy consumption, and relatively fewer pollutant emissions.
Sulfate-Process TiO?: Produced from ilmenite or rutile ores through steps including sulfuric acid digestion, leaching, and precipitation. The process is mature and can use low-grade ores, but generates a large amount of acid-containing waste, requiring strict environmental management.
2. Comparison of Product Performance
|
Performance Indicator |
Chloride-Process TiO? |
Sulfate-Process TiO? |
|
TiO? Content |
≥ 95–99% |
90–95% |
|
Opacity / Coverage |
High |
Medium |
|
Dispersibility |
Good, easy to disperse |
Average, requires additives |
|
Light & Weather Resistance |
Excellent |
Good |
|
Particle Size Distribution |
Uniform, controllable |
Wider, uneven |
Chloride-process TiO? is known for its high purity, excellent opacity, and weather resistance, making it suitable for high-end coatings, plastics, automotive paints, and other demanding applications. Sulfate-process TiO? is simpler and lower in cost, suitable for architectural coatings, paper, and general industrial use.
3. Environmental and Cost Considerations
Chloride Process: Requires high-quality raw materials but generates fewer by-products, making it more environmentally friendly. Equipment investment is high, suitable for large-scale production.
Sulfate Process: Uses more widely available raw materials, including low-grade ores, but waste acid treatment costs are high, and strict environmental compliance is required.
4. Summary of Application Fields
Chloride-Process TiO?: High-end coatings, automotive paints, plastics, cosmetics, inks—applications requiring high color quality, opacity, and weather resistance.
Sulfate-Process TiO?: Architectural coatings, paper, textiles, rubber—applications where performance requirements are moderate but cost advantages are important.
5. Conclusion
The choice between chloride-process and sulfate-process TiO? depends mainly on product performance requirements, application scenarios, and cost considerations. Chloride-process TiO? offers superior performance and is suited for the high-end market, while sulfate-process TiO? is mature and cost-effective, making it ideal for mid- to low-end markets and bulk applications. With increasing environmental regulations and growing demand for high-performance products, the market share of chloride-process TiO? in high-end sectors continues to rise.
