How do purified nitrile protective gloves achieve a design with a smooth inner layer and a friction coefficient on the outer layer?

Purified nitrile protective gloves play an important role in modern industrial, medical and laboratory environments. Their unique design - a smooth inner layer and a friction coefficient on the outer layer - provides users with a comfortable and safe wearing experience.

In the process of manufacturing purified nitrile protective gloves, nitrile rubber is the core material. This material is made by emulsion polymerization of butadiene and acrylonitrile. It has the flexibility and tear resistance of butadiene and the chemical stability of acrylonitrile. In order to achieve the smoothness of the inner layer of the gloves, a series of fine processes are used in the production process. After the gloves are formed, specific surface treatment processes such as chlorine washing can remove the stickiness of the glove surface and make its surface smoother, making it easier to wear and reducing friction on the hand skin.

At the same time, the design of the outer layer of the gloves focuses on providing a sufficient friction coefficient. This is because adding a certain friction coefficient to the outer layer can increase the friction between the gloves and the items used, prevent slipping, and improve the stability and safety of the operation. This design is achieved by using specific textures or coatings on the outer layer of the gloves, which can increase the roughness of the glove surface and thus increase the friction coefficient.

It is worth mentioning that the design of purified nitrile protective gloves is not limited to the two aspects of a smooth inner layer and a friction coefficient of the outer layer. In practical applications, gloves also need to have good puncture resistance, abrasion resistance, corrosion resistance and other properties. The realization of these properties also depends on the outstanding characteristics of nitrile rubber and sophisticated production technology.