The textile printing industry is constantly evolving, with new techniques and demands for higher quality and efficiency emerging regularly. To stay competitive, manufacturers need innovative solutions that push the boundaries of what's possible. NINGBO INNO PHARMCHEM CO.,LTD. is at the forefront of providing such advancements with KR-709H, a groundbreaking disperse printing thickener designed to revolutionize your printing processes.


KR-709H stands out as a high concentration disperse printing thickener, offering unparalleled performance. Its formulation as an acrylic acid-based thickener ensures exceptional stability, even with less water, which is a significant advantage in optimizing print paste preparation. This leads to more consistent print runs and reduced waste, directly impacting your bottom line. Moreover, its excellent flowability and electrolyte resistance make it suitable for a wide range of innovative textile printing techniques, from rotary to flat screen printing.


One of the core benefits of KR-709H is its ability to enhance color penetration and deliver a high color yield in textile printing. This means your designs will boast superior vibrancy and clarity, making every printed fabric a masterpiece. Coupled with its capability to impart a soft handle chemical thickener for fabrics, KR-709H ensures that the finished textiles are not only visually striking but also luxuriously soft to the touch.


NINGBO INNO PHARMCHEM CO.,LTD. is a dedicated manufacturer and supplier committed to innovation and quality. We understand the precise needs of modern textile production and offer solutions like KR-709H that are also Oeko-Tex certified and APEO formaldehyde free textile thickener, aligning with global sustainability efforts. If you are looking to purchase an innovative disperse printing thickener that promises superior results and supports eco-friendly practices, contact our team today. We provide competitive pricing and expert technical support to help you integrate KR-709H seamlessly into your advanced textile printing techniques.