Polyester fabrics are a cornerstone of the modern textile industry, valued for their durability and versatility. Optimizing their processing and finishing is key to producing high-quality textiles. NINGBO INNO PHARMCHEM CO.,LTD. introduces Sylic® Disperse Printing Thickener 317A, a specialized acrylate polymer dispersoid designed to enhance the printing and finishing of polyester fabrics, ensuring superior results.


This innovative thickener plays a crucial role in achieving vibrant and sharp prints with disperse dyes on polyester. Its ability to provide a high color yield and clear print outline ensures that designs stand out with exceptional clarity. For manufacturers focused on superior polyester fabric processing, Sylic® 317A offers consistent performance with good electrolyte resistance and stable color paste properties, minimizing inconsistencies in production.


A significant advantage of Sylic® 317A lies in its contribution to the final fabric feel. It's an excellent wash-off printing thickener for soft feel, ensuring that after processing, the fabric retains a luxurious, soft touch that is highly valued by consumers. This ease of wash-off also streamlines the finishing stages, reducing processing time and resource consumption. The product’s good thixotropy under shear force further aids in smooth printing operations, whether using rotary or flat screen printing methods.


Furthermore, NINGBO INNO PHARMCHEM CO.,LTD. emphasizes the eco-friendly profile of Sylic® 317A. It is completely free of APEO, formaldehyde, and kerosene, reflecting a commitment to sustainable chemical solutions for the textile industry. This makes it a preferred choice for companies aiming to reduce their environmental impact while still achieving premium textile finishes. By choosing Sylic® 317A from NINGBO INNO PHARMCHEM CO.,LTD., textile manufacturers can confidently invest in a product that not only enhances the aesthetic and tactile qualities of polyester fabrics but also supports responsible manufacturing practices, ensuring excellence in every batch.