| Quantity: | |
|---|---|
RC-A
Red Cherry
RC-A-007
Electrophoretic Coating: Electrophoretic coating is dissolved in water, causing electrolysis to generate charged particles. Under the influence of an external electric field, the charged particles migrate toward the opposite electrode and deposit on the surface of the aluminum profile, forming a dense and uniform film.
Powder coating: Powder coating is placed in a spray gun. Under the action of compressed air, high-voltage static electricity causes the powder particles to adhere to the surface of the aluminum profile, forming a 50-300μm coating. The resin molecular weight of powder coating is higher than that of solution-based coatings. After a single spraying, the aluminum profile surface is coated with a thick layer, without the dripping and pinhole defects caused by solution-based coatings, and the coating is also thicker.
Anodizing: The process of forming an oxide film on an aluminum product (anode) under the action of an applied current in a suitable electrolyte and specific process conditions. Anodizing can create a porous oxide film with a hardness of up to 500 HV. The porous structure allows the aluminum profile to more easily absorb pigments, lubricants, and other materials, making it more wear-resistant, corrosion-resistant, and aesthetically pleasing. Anodized aluminum profiles also offer insulating properties and high-temperature resistance, with a breakdown voltage exceeding 30V/μm and a temperature resistance of 1500°C.
Electrophoretic Coating: Electrophoretic coating is dissolved in water, causing electrolysis to generate charged particles. Under the influence of an external electric field, the charged particles migrate toward the opposite electrode and deposit on the surface of the aluminum profile, forming a dense and uniform film.
Powder coating: Powder coating is placed in a spray gun. Under the action of compressed air, high-voltage static electricity causes the powder particles to adhere to the surface of the aluminum profile, forming a 50-300μm coating. The resin molecular weight of powder coating is higher than that of solution-based coatings. After a single spraying, the aluminum profile surface is coated with a thick layer, without the dripping and pinhole defects caused by solution-based coatings, and the coating is also thicker.
Anodizing: The process of forming an oxide film on an aluminum product (anode) under the action of an applied current in a suitable electrolyte and specific process conditions. Anodizing can create a porous oxide film with a hardness of up to 500 HV. The porous structure allows the aluminum profile to more easily absorb pigments, lubricants, and other materials, making it more wear-resistant, corrosion-resistant, and aesthetically pleasing. Anodized aluminum profiles also offer insulating properties and high-temperature resistance, with a breakdown voltage exceeding 30V/μm and a temperature resistance of 1500°C.
