Our products deliver exceptional color and cleanliness for fiber and textile applications.
For the fiber and textile industries, we offer a portfolio of specialty carbon black products that deliver exceptional color performance and physical cleanliness enabling processors to maintain consistent, reliable production. Our products for fiber and textiles do not have many of the negative characteristics of dyes in synthetic fiber applications, including inconsistent fiber characteristics, lack of high color fastness, and negative environmental impacts. In contrast, our specialty carbon blacks allow customers to produce synthetic fibers with highly reproducible characteristics, strong light fastness, minimal colorant migration, and a low environmental impact.
Our products are suitable for use with various polymers used in fiber and textile applications, including polyester, nylon and polypropylene. We also offer specific products tailored for fine-denier polyester fiber applications where filterability and spinnability are critical. Our products enable superior results for fiber applications, excelling in key performance criteria:
- Color strength
- Blue tone
- Masterbatch dilutability
- Ease of dispersibility
A black masterbatch designed for use in polypropylene staple fiber applications. It exhibits high dilutability together with optimum carbon black dispersion characteristics to give good color development and excellent protection against ultraviolet (UV) weathering. This product is suitable for use in a wide range of plastics that come into contact with food.
Specialty Carbon Blacks
A specialty carbon black that offers a balance of cleanliness and color for standard fibers, such as high end carpets and coarse filaments.
A specialty carbon black offering superior cleanliness (with our strictest Fine Screen Delta P limits), deep color, and processability (higher masterbatch loadings) for fiber applications.
BLACK PEARLS 5160 specialty carbon black is a high jetness specialty carbon black for synthetic fiber applications that offers the filterability needed to produce filament fibers.