Micronized Wax For Ink And Coating

Micronized Wax has ultrafine particle size, high melting point, outstanding grindability and smoothness, good recoatability, breathability. Micronized Wax has good mixing compatibility and dispersion. It used in solvent coatings, powder coatings and ink with excellent smoothness, wear-resisting and anti-scratching. Usageï¼? Micronized Wax has good compatibility with ink and coating system. It is widely used in wood coatings, plastic coatings, powder coatings, coil coatings, UV light curing coatings, etc. Features: - Acts as a degassing agent in powder coatings - Excellent anti-blocking and slip properties - Good scratch resistance properties - Increased matting - High water repellent effect - Improved sand-ability of wood coatings - No influence on the transparency of polymers - Excellent dispersion and lubricating properties in plastics applications We can produce micronized waxes with melting point at 52-325, and hardness at 0.5-15dmm.

Application: It has good compatibility with ink and coating system. It is widely used in wood coatings, plastic coatings, powder coatings, coil coatings, UV light curing coatings, etc. Features and Benefits: 1.Acts as a degassing agent in powder coatings 2.Excellent anti-blocking and slip properties 3.Good scratch resistance properties 4.Increased matting We can produce micronized waxes with melting point at 52-325 C, and hardness at 0.5-15dmm. Properties Unit Specifications Melting point C 114-118 Density g/cc 0.94 Hardness d-mm 1.0 Average particle size m 5.5-6.5 Maximum particle size m

The application of micronized wax in ink is mainly reflected in the following aspects: Improvement of scratch resistance and abrasion resistance: micronized wax can enhance the scratch resistance and abrasion resistance of ink, so that the ink is not easy to be scratched or abraded in the printing process. Improve the handfeel: micronized wax can improve the slipperiness of the ink and make the print feel smoother. Controlling glossiness: micronized wax can adjust the glossiness of ink to meet different printing needs. Prevent pigment from settling: micronized wax can prevent pigment from settling in the ink and ensure the color consistency of the printed matter. The application of micronized waxes in coatings is also important: Improvement of scuffing resistance: Micronized waxes can enhance the scuffing resistance of coatings and make the coating surface more durable. Anti-adhesion: Micronized waxes have anti-adhesion properties, which make the coating surface less likely to adhere to other substances. Adjustment of leveling: Micronized waxes improve the leveling of coatings and make them smoother during application. Enhance hardness: by adding micronized wax, the hardness of the coating can be improved, making it more wear-resistant.

The application of micronized wax in ink is mainly reflected in the following aspects: Improvement of scratch resistance and abrasion resistance: micronized wax can enhance the scratch resistance and abrasion resistance of ink, so that the ink is not easy to be scratched or abraded in the printing process. Improve the handfeel: micronized wax can improve the slipperiness of the ink and make the print feel smoother. Controlling glossiness: micronized wax can adjust the glossiness of ink to meet different printing needs. Prevent pigment from settling: micronized wax can prevent pigment from settling in the ink and ensure the color consistency of the printed matter. The application of micronized waxes in coatings is also important: Improvement of scuffing resistance: Micronized waxes can enhance the scuffing resistance of coatings and make the coating surface more durable. Anti-adhesion: Micronized waxes have anti-adhesion properties, which make the coating surface less likely to adhere to other substances. Adjustment of leveling: Micronized waxes improve the leveling of coatings and make them smoother during application. Enhance hardness: by adding micronized wax, the hardness of the coating can be improved, making it more wear-resistant.

The application of micronized wax in ink is mainly reflected in the following aspects: Improvement of scratch resistance and abrasion resistance: micronized wax can enhance the scratch resistance and abrasion resistance of ink, so that the ink is not easy to be scratched or abraded in the printing process. Improve the handfeel: micronized wax can improve the slipperiness of the ink and make the print feel smoother. Controlling glossiness: micronized wax can adjust the glossiness of ink to meet different printing needs. Prevent pigment from settling: micronized wax can prevent pigment from settling in the ink and ensure the color consistency of the printed matter. The application of micronized waxes in coatings is also important: Improvement of scuffing resistance: Micronized waxes can enhance the scuffing resistance of coatings and make the coating surface more durable. Anti-adhesion: Micronized waxes have anti-adhesion properties, which make the coating surface less likely to adhere to other substances. Adjustment of leveling: Micronized waxes improve the leveling of coatings and make them smoother during application. Enhance hardness: by adding micronized wax, the hardness of the coating can be improved, making it more wear-resistant.

Paraffin is mainly composed of solid alkane, odorless and tasteless. It is a white or light yellow translucent solid. Due to its high oil content, it is mainly used to make matches, fiberboard, canvas, etc. When polyolefin additives are added to paraffin wax, its melting point increases and its adhesion and flexibility increase. It is widely used in moisture-proof and waterproof packaging paper, paperboard, surface coating of some textiles and candle production. Properties Unit Test Method Results Melting point C GB/T 2539 60-62 Oil content GB/T 3554 0.8 Color - GB/T 3555 25 Light stability - SH/T 0404 5

MicroF_W168 is a water-based micronized polyethylene homopolymer. The average particle size of MicroF_W168 is between 5.5 and 6.0 microns, and the maximum particle size is 21 microns. Application: Top grade water-based ink, water-based wood coating, Waterborne coatings, etc; Addition quantity: about 1%, can be added directly in the water-based system; Advantage: can be directly dispersed in the water-based system; Characteristics: good storage stability, good smoothness and wear-resistant performance. The application of micronized wax in ink is mainly reflected in the following aspects: Improvement of scratch resistance and abrasion resistance: micronized wax can enhance the scratch resistance and abrasion resistance of ink, so that the ink is not easy to be scratched or abraded in the printing process. Improve the handfeel: micronized wax can improve the slipperiness of the ink and make the print feel smoother. Controlling glossiness: micronized wax can adjust the glossiness of ink to meet different printing needs. Prevent pigment from settling: micronized wax can prevent pigment from settling in the ink and ensure the color consistency of the printed matter. The application of micronized waxes in coatings is also important: Improvement of scuffing resistance: Micronized waxes can enhance the scuffing resistance of coatings and make the coating surface more durable. Anti-adhesion: Micronized waxes have anti-adhesion properties, which make the coating surface less likely to adhere to other substances. Adjustment of leveling: Micronized waxes improve the leveling of coatings and make them smoother during application. Enhance hardness: by adding micronized wax, the hardness of the coating can be improved, making it more wear-resistant.

Oxidized polyethylene wax (OPE wax) is an excellent new type of polar wax with special properties such as low viscosity, high softening point and good hardness. It is widely used in many fields, including but not limited to the following: Plastics processing: In plastics processing, oxidized polyethylene wax can be used as internal and external lubricant to improve processing efficiency and reduce energy consumption. It improves the surface gloss and flow of plastic products while reducing equipment wear and increasing production rates. Ink and Coating: In the ink and coating industry, oxidized polyethylene wax is used as a dispersant and anti-sinking agent, which can improve the gloss and three-dimensionality of the printed materials, and at the same time enhance the water resistance and abrasion resistance of the coating. Rubber industry: As a lubricant, POW reduces energy consumption during rubber processing, improves release efficiency and enhances the gloss and durability of rubber products. Textile and Leather: In textile softeners and leather treatments, oxidized polyethylene waxes provide good lubricity and water resistance, and increase the softness and gloss of the products. Agriculture and gardening: Oxidized polyethylene waxes are also used in agriculture and gardening as protectants and lubricants to improve the effectiveness of crop protection coatings and the durability of garden tools. Other applications: In addition, oxidized polyethylene waxes are used in candles, floor waxes, automotive waxes, cosmetics, match wax sticks, sealing mastics, hot melt adhesives, oil absorbents, and sealants for electronic components.