Filter Cloth for Lepidolite Processing
Optimize lithium extraction with our high-performance filter cloths. Designed for efficient separation of solids from liquids, our durable and chemically resistant fabrics maximize yield and minimize downtime. Improve your lepidolite processing with our expert solutions.
Filter Cloth for Lepidolite Processing
ChinaFilter’s polypropylene series horizontal vacuum belt filter cloth has proven to be highly effective in the leaching process of lepidolite. With a processing capacity of 1.2-1.5m³ per ㎡/h and a filter cake thickness of 20mm, our filter cloth delivers exceptional performance and durability. Its service life can extend up to 3 months under continuous operation, significantly reducing downtime and operational costs.
Polypropylene’s inherent acid and alkali resistance, coupled with its exceptional wear resistance and stable chemical properties, make it the ideal material for the demanding conditions of lepidolite processing.
Benefits of ChinaFilter’s Filter Cloth
- High Performance: Our filter cloth offers superior filtration efficiency, processing capacity, and cake formation.
- Durability: Engineered to withstand the harsh conditions of the lithium extraction process, ensuring a long service life.
- Chemical Resistance: Resistant to acids and alkalis, protecting the filter cloth and extending its lifespan.
- Customizable: Available in widths up to 4.8 meters, our filter cloth can be tailored to fit various equipment and process requirements.
- Quality Assurance: Manufactured in accordance with ISO9001 standards, guaranteeing consistent product quality and reliability.
Optimize Your Lithium Production with ChinaFilter
By selecting ChinaFilter’s filter cloth for your lepidolite processing operation, you can benefit from increased efficiency, reduced downtime, and lower operational costs. Our expert team is dedicated to providing tailored solutions to meet your specific needs.
Contact us today to learn more about how our filter cloth can enhance your lithium extraction process.