Palm Surface Treatment Method of Dipped Gloves
Dipped gloves are widely used personal protective equipment in medical, laboratory, and industrial fields. To ensure the performance of gloves, it is crucial to properly handle their palm surface. This article will provide a detailed introduction to several common methods for treating the palm of dipped gloves, helping you choose the most suitable treatment method for your needs, thereby improving the slip resistance and durability of the gloves.
Roughening Treatment:
Roughening is a common palm treatment method that provides better anti slip performance by increasing the friction coefficient of the glove surface. There are two common methods of roughening:
Chemical treatment: Use chemical solvents or acidic liquids to treat the surface of gloves, forming small concave convex structures that increase friction. This method is simple and feasible, and can provide good anti slip effect. However, it should be noted that when using chemical treatment, chemicals that are harmless to the human body should be selected and treated strictly in accordance with operating standards.
Mechanical treatment: Use a brush or sanding tool to sanding the surface of gloves to increase surface roughness. This method is usually suitable for thicker glove materials and can effectively improve slip resistance. However, mechanical treatment may damage the appearance of gloves, so careful consideration is needed when selecting them.
Coating Treatment:
Coating treatment is another common palm treatment method that provides additional slip resistance and wear resistance by applying a special layer of material to the surface of the glove. The following are two common coating treatment methods:
Liquid coating: Use special liquid materials to spray or soak the palm of the glove to form a uniform coating. This method can provide excellent anti slip effect and increase the durability of gloves. Different liquid coating materials have different characteristics. For example, latex coating is suitable for grasping objects, while Nitrile rubber coating is suitable for chemical treatment.
Solid coating: apply solid materials (such as latex or Nitrile rubber) on the palm of gloves and cure them by heating or pressure. This method provides long-lasting slip resistance and excellent wear resistance, making gloves suitable for long-term use and heavy work.
Texture Processing:
Texture processing is a method of forming texture patterns on the palm of gloves, providing better grip and anti slip performance. The following are two common texture processing methods:
Hot pressing texture: Use a hot pressing machine to contact the palm of the glove with the texture mold, forming a texture pattern under high temperature and pressure. This method can customize various texture styles to meet the needs of different working environments. The hot pressed texture provides excellent grip performance and remains stable throughout the glove’s lifespan.
Printing texture: Using special printing techniques, a texture pattern is printed on the palm of the glove to provide additional anti slip effect. This method is cost-effective and easy to implement, but the texture pattern may wear out over time.
Functional Processing:
In addition to providing anti slip performance, the palm treatment of gloves can also add other functional features, such as:
Anti chemical treatment: Special coating treatment is applied to the palm of the glove to provide resistance to chemical corrosion. This treatment method makes gloves suitable for work environments that require contact with chemicals and provides additional safety.
Anti static treatment: By adding conductive materials or conducting static treatment, the palm of the glove has anti static function. This treatment method can be used in situations where electrostatic discharge needs to be prevented in the working environment, to avoid damage to sensitive equipment or materials.
Conclusion:
Choosing an appropriate method for treating the palm surface of impregnated gloves can significantly improve their anti slip and durability, thereby enhancing safety and comfort in work scenarios. According to different needs, methods such as roughness treatment, coating treatment, texture treatment, or functional treatment can be flexibly selected. When purchasing dipped gloves, understanding the characteristics and advantages of different processing methods can help you make a wiser choice. Whether you use dipped gloves in the medical, laboratory, or industrial fields, with appropriate palm treatment, you can achieve higher work efficiency and safety assurance.