In the competitive textile industry, innovation in fabric treatment technologies is crucial for creating distinctive products. NINGBO INNO PHARMCHEM CO.,LTD. is proud to present MF-20 Burnt-out Powder, a high-performance textile treatment technology designed to unlock new potentials in fabric design and functionality. This advanced chemical auxiliary is engineered to deliver superior results in burnt-out printing, transforming ordinary fabrics into extraordinary pieces.


MF-20 is a precision chemical for selective fiber removal, primarily used for cotton, TC, and TR blended fabrics. It effectively carbonizes cellulosic fibers during the heat process, which are then easily washed away, leaving behind intricate, transparent patterns. This capability enhances the aesthetic appeal of fabrics significantly, offering designers unparalleled creative freedom. The easy wash after baking characteristic of MF-20 further streamlines the process, marking it as a truly high-performance fabric treatment solution.


As a leading burnt-out chemical supplier, NINGBO INNO PHARMCHEM CO.,LTD. ensures that MF-20 adheres to the highest quality standards. Its reliability and consistent performance make it an indispensable asset for manufacturers striving for excellence. The product's formulation is optimized to prevent common issues like fabric blackening, ensuring clean and sharp designs every time. For those looking to buy MF-20 burnt-out powder, we offer competitive pricing and detailed technical support to ensure optimal utilization.


By integrating MF-20 into your production line, you are adopting a technology that elevates fabric properties and creates unique market advantages. It's more than just a powder; it's a gateway to new textures, visual effects, and design possibilities, especially for transparent effect fabric printing. NINGBO INNO PHARMCHEM CO.,LTD. is committed to empowering textile businesses with cutting-edge solutions that drive innovation and meet the evolving demands of the global market, truly optimizing burnt-out print processes.