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.
Bitumen Primer * Bitumen Primer is Bituminous air curing ready mixed Acid & Alkali resistant special primer. Application * Concrete surface must be clean, dry and rough. No primer should be applied over smooth and wet surface. * After cleaning the concrete surface, one coat of Bitumen Primer should be applied with brush and allow to dry thoroughly. * The drying time will depend upon the temperature. * 24 Month at the temperature 30C (+2OC) Packing * Bitumen Primer: 25 Liter Drum Note * Bitumen Primer contains volatile and slightly toxic solvent. Keep away from spark and open flames at working area. * Bitumen premier it is manufactured using bitumen solution which is used for sealing of prime porous and non-porous surface, and also to protect residential and commercial building. * Bitumen Primer is used to protect substrate against corrosive attack, is suggested to apply anti-corrosive primer.It is best for protection against sub-striate against atmospheric corrosion and chemical corrosion. It is a mixed substance made up of organic liquids that are highly sticky, water proof, viscous,acid proof as with all surface coating, good Bitumen Premier is used for long life of the system. it is applied by brush or roller and allowed to dry before any water proofing treatment so to avoid solvent it is used in defects such as cracks, broken mortar joints, etc. are to be repaired prior to Bitumen primer application. Product Details: Grade Standard Technical Grade Physical State - Liquid Usage - Industrial Color - Black Characteristics: Appearance/Color - Pasty liquid/ black Chemical Base - Bituminous rubber emulsion. Density - 1.0 kg/l Curing Speed/ Rate - 3 - 4 hours Tack free after - 5 - 10 hours Cured after - 2 - 4 days (Dependent on ambient Solid Content by - temperature, substrate temperature, Weight - relative Water Content by weight - humidity and thickness of the coating) Bitumen Content - 41% by weight - Thixotropic (The viscosity can be adjusted by - Viscosity adding up to max. 5% of clean water. - Stir well prior use) - For light protection: 1.0 mm min. Coating - For greater protection: ~ 1.5 - 2.0 mm Thickness applied - in two coats. Water Penetration - 48 h, 1 bar: 78.5 cm2: 0 ml under Hydrostatic - 96 h, 4 bar: 78.5 cm2: 33 ml Pressure - Water vapor 6 x 10-7 mg / hmPa Permeability Service - -30 C to 200 C Temperature - Adhesion Concrete - Very good, Timber: Very good, Metal: Moderate Glass: Poor
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.
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.
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.
