Cellulose fibers, such as cotton, linen, and viscose, are mainstays in the textile industry due to their comfort and versatility. However, achieving optimal color fastness, particularly wet rubbing fastness, can be a challenge with certain dye types. NINGBO INNO PHARMCHEM CO.,LTD. recognizes these specific needs and offers SM-2020, a premier specialty chemical for cellulose fiber dyeing, engineered to overcome these hurdles.


SM-2020 is a highly effective wet rubbing fastness improver agent. It's specifically formulated to interact with the active groups on cellulose fibers, creating a protective layer that locks in dye molecules. This action dramatically improves the fastness of direct, reactive, and sulfurized dyes. For manufacturers aiming to improve wet rubbing fastness on cellulose fiber, SM-2020 proves indispensable, elevating fastness by 1-2 grades and often surpassing 3 grades, especially vital for dark and intense colors.


As a leading wet rubbing fastness improver manufacturer, NINGBO INNO PHARMCHEM CO.,LTD. ensures that SM-2020 not only delivers exceptional performance but also integrates seamlessly into existing dyeing processes. Its application via padding or dipping methods is straightforward, allowing for efficient production cycles. Moreover, its compatibility with a wide range of cationic and non-ionic products provides flexibility, while its robust acid resistance guarantees stability in various bath conditions. Businesses looking to buy sm-2020 textile auxiliary agent will appreciate its ease of use and consistent results.


Choosing SM-2020 means investing in enhanced quality and customer satisfaction for your cellulose-based textiles. It guarantees that the vibrant colors achieved through dyeing remain durable and resistant to rubbing, without affecting the fabric's natural feel or its sunlight fastness. NINGBO INNO PHARMCHEM CO.,LTD. stands by the quality and efficacy of its products. Inquire about the sm-2020 textile auxiliary agent price today to optimize your cellulose fiber dyeing operations and achieve superior color stability.