In the competitive textile market, the visual appeal and functional performance of fabrics are paramount. Achieving superior whiteness and optimal hydrophilicity (water absorbency) are critical indicators of fabric quality and preparation for subsequent finishing processes. NINGBO INNO PHARMCHEM CO.,LTD. provides cutting-edge industrial chemicals for textile whiteness & hydrophilicity, ensuring textiles meet the highest standards.


Sylic® Refining Agent 111C is a prime example of such an innovation. This specialized surfactant compound plays a pivotal role in enhancing both the whiteness and absorbency of cotton and blended fabrics during the pretreatment phase. Its unique formulation allows for exceptional penetration and dispersion, effectively removing impurities and naturally occurring waxes that can hinder the fabric's ability to absorb water and appear bright.


The efficacy of Sylic® Refining Agent 111C in supporting brilliant whiteness is evident in its application across various pretreatment methods, including cold stacking and alkali-oxygen one-bath processes. For textile producers seeking the best textile pretreatment chemicals for whiteness, this agent offers a reliable and consistent solution, ensuring fabrics achieve a clean, radiant base. Moreover, its contribution to improved hydrophilicity means that fabrics will uniformly absorb dyes and other finishing agents, leading to consistent and high-quality end products.


As a leading textile chemical supplier, NINGBO INNO PHARMCHEM CO.,LTD. is committed to delivering products that not only enhance aesthetic qualities but also improve processing efficiency. Sylic® Refining Agent 111C’s robust performance, even in challenging alkaline environments, underscores its value in modern textile operations. Its concentrated nature also provides economic advantages through reduced dosage. By choosing Sylic® Refining Agent 111C, textile manufacturers can confidently elevate the quality and performance of their fabrics, achieving the desired radiant appearance and functional absorbency.