NINGBO INNO PHARMCHEM CO.,LTD. offers PVP K17, a polyvinylpyrrolidone polymer with a broad spectrum of industrial applications, underscoring its versatility beyond pharmaceuticals and cosmetics. The unique physicochemical properties of PVP K17 make it an essential component in various manufacturing processes, contributing to product enhancement and innovation.

In the textile industry, PVP K17 serves as a valuable additive in printing and dyeing processes. It acts as a sizing additive, improving the dispersion of dyes and ensuring uniform dyeing results. Its ability to enhance dye receptivity makes fabrics more vibrant and consistent in color.

The coatings and inks sector also benefits significantly from PVP K17. It functions as a thickener and dispersant in water-based coatings, leading to improved film-forming performance and application properties. Inks utilize PVP K17 for its adhesive qualities, which enhance printability and durability. The PVP K17 industrial applications are a testament to its adaptability.

Furthermore, PVP K17 plays a role in adhesive formulations, where its binding properties contribute to the strength and toughness of the adhesive bond. Its unique properties also extend to more advanced materials, such as coatings for ink-jet paper, improving print quality and paper surface characteristics.

In emerging technological fields, PVP K17 is utilized in the lithium battery industry as a binder for electrode slurries. It enhances the adhesion between active substances and current collectors, thereby improving overall battery performance and longevity. This highlights the ongoing innovation driven by the application of this versatile polymer.

NINGBO INNO PHARMCHEM CO.,LTD. is committed to supplying high-quality PVP K17 that meets the diverse needs of industrial clients. Whether you are seeking to improve textile dyeing, enhance coating formulations, or develop advanced battery materials, our PVP K17 offers a reliable and effective solution. Partner with us to leverage the extensive capabilities of this multifaceted polymer.