Polyester-cotton blends are ubiquitous in the textile industry due to their desirable properties, combining the comfort of cotton with the durability of polyester. However, processing these mixed fabrics presents unique challenges, particularly during the pretreatment phase. NINGBO INNO PHARMCHEM CO.,LTD. offers a range of specialized polyester cotton blends processing chemicals designed to optimize this critical step, ensuring superior quality and efficiency.


A key component of our offerings is the Low Foaming Removing Oil Agent 11045, which is specifically formulated to address the distinct needs of cotton-polyester fabrics. This powerful textile pretreatment oil removal agent effectively eliminates oils, waxes, and other impurities from both natural and synthetic fibers, leading to enhanced whiteness and absorbency. Its high concentration allows for efficient use, making it an economical choice for manufacturers looking to buy a reliable degreasing agent for their blends.


The benefits extend beyond mere cleaning. Our biodegradable fabric scouring auxiliary ensures environmental compliance, being free from harmful substances like APEO and formaldehyde. This commitment to sustainability is vital for modern textile production and meets growing industry demands. Furthermore, the multi-functional nature of the agent—offering degreasing, scouring, and penetrating actions—streamlines the pretreatment process, particularly in one-bath degreasing and dyeing applications, which saves considerable time and resources.


Choosing the right processing chemicals is paramount for achieving consistent results and minimizing defects in polyester cotton blends. NINGBO INNO PHARMCHEM CO.,LTD. stands as a trusted nonionic textile degreaser supplier, providing products that are not only effective but also mild on fibers, preventing damage while ensuring thorough impurity removal. Elevate your fabric quality and operational efficiency by integrating our cutting-edge solutions into your polyester cotton processing workflows for optimal performance.