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A6063 Facade Decoration Powder Coating Expanded Aluminum Mesh Cladding
General Production Information
Production introduction
Facade cladding is extremely important both for functional and for aesthetical reasons. Vertical external cladding is a filter, a physical bordering, it's a way the building mingles with the environment and it influences the perception we get from the building. Depending on the geographic area, the use, the climate, the design and the budget we can choose from several types of facade cladding. Metal panels, holed and ashlared sheets and metal mesh to make complete facades.
As one of the important facade technical elements in high-rise buildings, expanded aluminum mesh cladding is widely used because of its simple structure, soundproofing, fireproof and easy instrallation. Ares metal is a professional steel mesh manufacturer with 33 years of OEM history. Mainly provide the panel part for the Facade cladding. The panel of the aluminum mesh cladding is mainly welding composed of steel mesh and frame.
Ares metal can provide surface treatments such as painting, anodizing and fluorocarbon coating. Our expanded aluminum is produced from aluminum sheet or coil that is simultaneously slit.
Material: Aluminum 6063
Material characteristics:
6063 aluminum is the most common choice for extrusion with its excellent extrudability, high corrosion resistance, and ability to be formed into complex shapes. It is often used for architectural applications because of its nice appearance an acceptable strength.
6063 aluminum sheet is a high-quality aluminum alloy produced by a heat treatment pre-stretching process. It has excellent processing properties, excellent welding characteristics and plating, and good corrosion resistance. It is extremely versatile in aerospace fixtures, trucks, boats, pipelines, etc. (3003-H22 one bar aluminum tread plate price)
Surface Treatment: Powder Coating
Powder coating is a dry finishing process in which free-flowing, thermoplastic or thermoset powder material, rather than a liquid suspension, is applied to a surface, melted, and then allowed to dry and harden into a protective coating. Typically, the powder is applied via electrostatic spray deposition (ESD) to an electrically grounded metal substrate. Once the powder coating is completely applied to a part, it is then heat cured in an oven until the powder melts and flows together. Powder coatings can also be applied by dipping preheated parts into powder material within a fluidized bed. The powder melts and fuses with the part’s heated surface upon contact. In either case, as the part dries and cools, the cured powder forms a smooth, hard finish.
Compared to conventional liquid coating methods, powder coating offers several advantages. These include:
Specification
Thickness | Strand Width | Hole Size |
2.0 mm | 5.0 mm | 25 × 50 mm |
2.5 mm | 5.0 mm | 30 × 60 mm |
3.0 mm | 5.0 - 10.0 mm | 40 × 80 mm |
2.0 - 3.0 mm | 5.0 - 15.0 mm | 50 × 100 mm |
3.0 mm | 20.0 - 30.0 mm | 90 × 200 mm |
3.0 mm | 20.0 - 30.0 mm | 100 × 250 mm |
Our advantages: