Achieving flawless and intricate designs in textile pigment printing heavily relies on the precise control of printing paste viscosity. NINGBO INNO PHARMCHEM CO.,LTD. specializes in advanced pigment printing rheology modifiers that empower textile manufacturers to attain unparalleled print quality and consistency. Our specially formulated anionic thickeners are designed to provide optimal rheological properties, ensuring smooth flow, sharp outlines, and superior color application.


The rheology of a printing paste dictates how well it transfers onto the fabric, how clearly the patterns are defined, and the overall color vibrancy. Our innovative rheology modifiers exhibit powerful thickening capabilities while maintaining excellent shear stability, crucial for high-speed printing operations. This leads to reduced splashing, improved screen release, and minimal bleeding, critical factors for high-definition textile prints. Manufacturers seeking to purchase high concentration acrylic pigment printing thickener for enhanced rheology will find our solutions to be industry-leading.


NINGBO INNO PHARMCHEM CO.,LTD. recognizes the diverse needs of the textile printing sector. Our rheology modifiers are versatile, suitable for a wide range of fabrics and printing techniques, including rotary and flat screen printing. They are also resistant to electrolytes, ensuring consistent performance even in challenging formulations. By integrating our products, textile producers can significantly improve their production efficiency and the aesthetic quality of their finished goods, making them a preferred choice for consumers.


Partnering with NINGBO INNO means gaining access to not just premium products, but also expert technical support from a dedicated textile printing auxiliary supplier. Our team is committed to helping clients optimize their printing processes, ensuring they achieve the desired rheological profiles for their specific applications. Discover how our cutting-edge rheology modifiers can revolutionize your pigment printing operations, offering both technical superiority and economic advantages.