Fabric dyeing processes are often fraught with challenges, from preventing creases to ensuring uniform color penetration. Specialty chemicals are crucial in overcoming these hurdles, and NINGBO INNO PHARMCHEM CO.,LTD. introduces Sylic Anticrease Agent 528 as a prime example of such an optimizing solution. This non-ionic dyeing auxiliary is meticulously designed to streamline your dyeing operations, leading to superior fabric quality and enhanced efficiency.


Sylic Anticrease Agent 528 plays a vital role in optimizing fabric dyeing processes, particularly in preventing the formation of durable creases during high-temperature wet processing. Its unique formulation, a special polymer dispersion, ensures a smooth fabric surface, crucial for maintaining aesthetic appeal. This agent is especially effective as a textile anti-crease agent for polyester dyeing, where crease marks can be a common issue. Beyond polyester, it offers versatile application across wool, nylon, cellulose fibers, and their blends, providing consistent performance irrespective of the fiber type.


One of the significant advantages of Sylic Anticrease Agent 528 is its excellent stability. It maintains its efficacy even in the presence of hard water, alkali, and electrolytes, commonly encountered in dyeing baths. This robust stability ensures reliable results batch after batch. Furthermore, its low foaming properties are a game-changer for rope processing, significantly reducing operational issues and improving machine efficiency. For manufacturers seeking a reliable low foaming anti-wrinkle chemical for rope processing, this product is an ideal choice.


NINGBO INNO PHARMCHEM CO.,LTD. is a reputable manufacturer and supplier of this essential dyeing auxiliary. If you are looking to buy Sylic Anticrease Agent 528 to enhance your fabric dyeing processes, our product offers a cost-effective and high-performance solution. Contact us to inquire about the Sylic Anticrease Agent 528 price and how this specialty chemical can transform your textile production.