Reactive textile printing demands precision and performance from every component, especially the thickening agents. These crucial auxiliaries dictate the sharpness of outlines, the vibrancy of colors, and the overall quality of the printed fabric. At NINGBO INNO PHARMCHEM CO.,LTD., we specialize in developing superior chemical solutions that empower textile manufacturers to achieve outstanding results in their reactive printing processes.


Our Sylic® Sodium Alginate CY-316SG is an embodiment of cutting-edge technology in this field. It is an advanced thickening agent reactive printing professionals rely on for its consistent and reliable performance. This product ensures excellent color transfer and penetration, leading to prints with remarkable brightness and intensity. The high paste rate means that less product is required to achieve the desired viscosity, translating into cost efficiencies for your operations.


One of the primary challenges in large-scale reactive printing is maintaining uniform paste quality. Sylic® Sodium Alginate CY-316SG addresses this by providing exceptional textile reactive printing paste stability. This stability is vital for both rotary and flat screen printing methods, preventing issues like bleeding or uneven dye distribution. Furthermore, its good electrolyte resistance ensures that the paste remains stable even when complex dye formulations or other chemicals are introduced.


For manufacturers looking for a reliable high color yield printing auxiliary manufacturer, NINGBO INNO PHARMCHEM CO.,LTD. offers a proven solution. Our Sylic® Sodium Alginate CY-316SG is rigorously tested to ensure it enhances color fixation and vibrancy, leading to a superior finished product that stands out in the market. Investing in high-quality thickening agents like ours is an investment in the long-term success and reputation of your textile printing business.


With Sylic® Sodium Alginate CY-316SG from NINGBO INNO PHARMCHEM CO.,LTD., you gain a partner committed to innovation and quality, helping you push the boundaries of reactive textile printing performance.