In the competitive textile market, consumer satisfaction often hinges on two critical attributes: vibrant color retention and luxurious fabric softness. Achieving both can be challenging, especially after dyeing and finishing processes. NINGBO INNO PHARMCHEM CO.,LTD. introduces RG-400T Formaldehyde-Free Fixing Agent, a specialized solution designed for optimizing fabric color retention and softness in cotton textiles.


RG-400T is a high-performance cationic fixing agent specifically developed for reactive dyeing and printing applications on cotton. Its unique formulation ensures that active and direct dyes are firmly anchored to the fibers, significantly enhancing wet, washing, and rubbing fastness. This means the colors stay true and vivid, resisting fading and bleeding even after repeated laundering, making it the best fixing agent for color retention on cotton.


Beyond its exceptional color-fixing capabilities, RG-400T plays a crucial role in preserving the inherent softness and natural feel of cotton fabrics. Unlike many conventional fixing agents that can impart a harsh or stiff hand to textiles, our formaldehyde-free solution ensures the fabric remains pliable, comfortable, and aesthetically pleasing. This dual benefit of superior color fastness and maintained softness makes RG-400T an invaluable asset for manufacturers aiming to produce premium quality textiles. NINGBO INNO PHARMCHEM CO.,LTD. is a reliable supplier committed to these outcomes.


NINGBO INNO PHARMCHEM CO.,LTD. is dedicated to providing innovative chemical solutions that meet the evolving demands of the textile industry. With RG-400T, we offer a product that not only delivers outstanding technical performance but also aligns with environmental and safety standards due to its formaldehyde-free composition. If you're looking to maintain fabric softness after dyeing while ensuring brilliant, long-lasting colors, contact us to learn more about how RG-400T can elevate your textile products. We offer competitive RG-400T price points and support for optimal application.