In large-scale industrial textile operations, efficient and effective post-processing is crucial for product quality and profitability. Manufacturers constantly seek agents that can streamline processes while delivering superior fabric characteristics. MF-802 is specifically designed to meet these industrial demands, serving as an indispensable textile auxiliary agent for comprehensive post-treatment of polyester and T/C fabrics.


MF-802, a high molecular copolymer-based solution, offers outstanding and durable stiffness, which is a key requirement for many industrial textiles, including those used in technical applications, home furnishings, and apparel. Its robust formulation ensures that the desired level of stiffness is achieved consistently and maintained over time. Additionally, the agent's obvious anti-scratch effect contributes to the fabric's integrity and helps in achieving an anti-wrinkle finish, reducing imperfections and enhancing product appeal.


Ease of use and compatibility are paramount in industrial settings. MF-802, presented as a nonionic milky white emulsion, is readily dilutable with water at any ratio, ensuring straightforward application. Its unique property of being usable in the same bath with softeners simplifies complex finishing protocols, saving time and resources. This flexibility makes MF-802 an ideal choice for optimizing industrial textile post-processing workflows, ensuring high throughput without compromising on quality.


NINGBO INNO PHARMCHEM CO.,LTD. is a trusted partner for industrial textile solutions. If your operations require an industrial textile stiffening agent buy solution that offers both efficacy and efficiency, MF-802 is engineered to exceed expectations. For manufacturers seeking a reliable textile post-processing agent supplier committed to delivering high-performance products, our MF-802 embodies quality and innovation. Partner with us to enhance your post-processing capabilities and deliver fabrics with superior stiffness, thickness, and a smooth, professional finish.