Cotton, a cornerstone of the textile industry, continuously demands innovative processing solutions to enhance its natural comfort and performance. NINGBO INNO PHARMCHEM CO.,LTD. is proud to introduce Hydrophilic Block Silicone Oil CY-4881, representing the pinnacle of advanced cotton fabric treatment technologies. This product is specifically engineered to elevate the properties of cotton, addressing long-standing challenges in fabric finishing.


CY-4881 is a testament to our commitment to providing innovative cotton softening solutions. Unlike traditional amino-silicones that often cause yellowing or compromise hydrophilicity, our specialized three-component block copolymer structure ensures that cotton fabrics achieve an unparalleled level of softness and an instantaneous water absorption capability. This means garments feel more comfortable against the skin, and functional textiles perform as expected, enhancing overall consumer satisfaction.


A key benefit of CY-4881 is its exceptional performance in preventing common finishing issues. Fabrics treated with this silicone oil exhibit no floating oil, no undesirable spots, and are non-sticky to rollers during processing, ensuring a clean and efficient production line. This precision in application contributes to higher quality output and reduces the potential for costly reprocessing. Furthermore, its robust resistance to acids, alkalis, high temperatures, and high shearing forces guarantees the durability of the enhanced properties, providing long-lasting softness and absorption.


For manufacturers seeking a reliable and cutting-edge solution for their cotton textiles, CY-4881 stands out. Its ability to impart bulkiness, slip, and fullness while remaining redyeable after treatment offers unparalleled versatility. NINGBO INNO PHARMCHEM CO.,LTD. is your trusted cotton fabric softening agent CY-4881 supplier, ready to partner with you to transform your cotton products. Elevate your fabric quality and production efficiency by integrating CY-4881 into your finishing processes.