The quest for enhanced fabric performance is a continuous journey in the textile industry. Innovative textile auxiliary agents are the cornerstone of this progress, enabling manufacturers to imbue fabrics with desirable properties such such as wrinkle resistance, easy care, and durability. NINGBO INNO PHARMCHEM CO.,LTD. is a leading manufacturer committed to developing these advanced chemical solutions.


One of our most impactful innovations is the formaldehyde-free non-iron resin RG-220H. This cutting-edge textile auxiliary agent is designed to act as a powerful no-iron crosslinking agent for fabrics, delivering exceptional anti-wrinkle properties and anti-shrink treatment. Unlike conventional resins, RG-220H ensures no formaldehyde emission, making it a safer and more environmentally conscious choice for textile producers. When considering where to buy formaldehyde-free textile solutions, prioritize those from reputable manufacturers.


RG-220H dramatically improves the wash-and-wear effects of fabrics, providing consumers with garments that require minimal ironing. It's particularly effective on cotton, viscose, and their blended fabrics, imparting good resilience and excellent durable press performance. This means treated textiles maintain their smooth, crisp appearance through repeated laundering and dry cleaning, significantly extending garment lifespan and consumer satisfaction. We pride ourselves on being a premier chemical auxiliary for textile manufacturers.


As an innovative textile anti-wrinkle treatment chemical supplier, NINGBO INNO PHARMCHEM CO.,LTD. is dedicated to supporting the industry's evolution towards more functional and sustainable products. Our RG-220H resin is soluble in water, simplifying its integration into existing finishing processes and boosting operational efficiency. Discover how to purchase this advanced resin and obtain details on the competitive formaldehyde-free non-iron resin RG-220H price by contacting us today. Elevate your textile offerings with our innovative auxiliary agents.