Polyester and blended fabrics are cornerstones of the modern textile industry, valued for their durability and versatility. However, their unique compositions often present specific processing challenges, particularly concerning oil stains, oligomer accumulation, and uneven dye absorption. Optimizing the pre-treatment phase is critical to overcoming these hurdles and achieving a flawless end product.


Sylic®Detergent CY-115 stands out as an exceptional polyester fabric processing solution. This weak cationic pre-treatment auxiliary excels in applications for polyester knitted fabric scouring dyeing process and blended fabric treatments. Its superior emulsification and dispersion capabilities are specifically engineered to address the inherent difficulties posed by synthetic fibers. It effectively breaks down and disperses oil agents, preventing them from re-depositing onto the fabric surface, which is a common cause of uneven dyeing and unsightly spots.


Furthermore, Sylic®Detergent CY-115 plays a vital role in tackling oligomer issues. These low molecular weight compounds, often released during high-temperature dyeing of polyester, can adhere to fabric or equipment, leading to speckling and reduced quality. By incorporating this advanced detergent, textile manufacturers can proactively eliminate these concerns, ensuring a clean cylinder and pristine fabric. For those looking for a reliable blended fabric dyeing chemical solution, the effectiveness of CY-115 across various conditions — neutral, weak acid, and alkaline — makes it a versatile choice.


Finding a trusted supplier to purchase textile fabric chemicals is essential for consistent quality. NINGBO INNO PHARMCHEM CO.,LTD. offers Sylic®Detergent CY-115, providing a robust solution that simplifies complex processing steps, such as the same-bath degreasing and dyeing. This not only improves efficiency but also significantly enhances the final appearance and feel of polyester and blended fabrics, leading to higher customer satisfaction and reduced material waste.