The global textile industry faces increasing pressure to adopt more sustainable practices. This extends beyond raw material sourcing to every stage of production, including dyeing and finishing. NINGBO INNO PHARMCHEM CO.,LTD. is committed to supporting this shift by developing and supplying innovative chemicals like KR-722, which play a vital role in enabling sustainable textile processes without compromising on quality or performance.


While primarily recognized as a pigment printing thickener, KR-722's inherent properties make it a valuable component in the broader spectrum of

sustainable dyeing & finishing chemicals. Its formulation as an

acrylic multicomponent copolymer for textile printing is free from harmful APEO and formaldehyde, addressing key environmental and health concerns often associated with traditional textile auxiliaries. This commitment to cleaner chemistry positions KR-722 as an essential

eco-friendly pigment thickener for fabric manufacturers striving for environmental compliance and corporate responsibility.


The impact of KR-722 extends to enhancing process efficiency, which is a cornerstone of sustainability. Its high viscosity and exceptional thickening performance mean that less product is required to achieve desired results, reducing material consumption and waste generation. Furthermore, its superb hydration and outstanding stability contribute to smoother operations, minimizing downtime and energy usage. NINGBO INNO PHARMCHEM CO.,LTD. believes that true sustainability comes from products that are both effective and efficient.


By choosing KR-722, textile producers are not only investing in a chemical that delivers vivid color brilliance and sharp print definition but also contributing to a more sustainable future for the industry. NINGBO INNO PHARMCHEM CO.,LTD. remains dedicated to advancing the frontier of textile chemistry, providing solutions that meet today's market demands while safeguarding tomorrow's environment. Explore how KR-722 can transform your dyeing and finishing operations into models of sustainability and efficiency.