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Product Description
| Chemical Composition | |||||||
| Aluminum (Al) | Iron (Fe) | Silicon (Si) | Copper (Cu) | Zinc (Zn) | Manganese (Mn) | Titanium (Ti) | Magnesium (Mg) |
| 99.7% | 0.2% | 0.25% | 0.04% | 0.04% | 0.03% | 0.03% | 0.03% |
Electrical Conductors: 1070 aluminum is known for its high electrical conductivity. Manufacturers commonly use these sheets to manufacture electrical conductors, such as busbars, transformer windings, and cable shielding.
Heat Exchangers: The excellent thermal conductivity of aluminum makes it suitable for heat exchanger components, particularly in HVAC systems and radiators.
Reflectors: The reflective properties of aluminum make it ideal for manufacturing lighting fixtures, especially in producing fluorescent and LED lighting glasses.
Panels and Signage: The natural finish of these sheets can be advantageous for applications where a sleek, uncoated appearance is desired, such as in the production of panels, signage, and architectural elements.
Roofing and Cladding: People use aluminum sheets for roofing and cladding due to their lightweight nature, corrosion resistance, and durability. Mill finish sheets can be coated or left untreated, depending on the aesthetic and functional requirements.
Household Appliances: Manufacturers may use aluminum sheets to manufacture household appliances, including oven liners, refrigerator components, and cookware, due to their heat resistance and formability.
Automotive Parts: IAluminum sheets in the automotive industry serve for interior trim, heat shields, and structural components, with mill finish acting as a base for coatings or treatments.
Construction: People use aluminum sheets for various purposes, such as roofing, wall cladding, and interior decoration. The mill finish can be a starting point for additional surface treatments based on the specific architectural requirements.
Marine Industry: Due to its resistance to corrosion in marine environments, aluminum is used for shipbuilding and constructing marine components like boat hulls.
Packaging: People commonly use aluminum sheets, including aluminum foil, for food packaging and beverage cans. The natural finish may be a precursor to printing or labeling.
Aerospace: In the aerospace industry, manufacturers use aluminum sheets for aircraft components due to their lightweight properties. The sheets can be further treated and formed for specific applications.
Manufacturing and Fabrication: These sheets are versatile for general manufacturing and fabrication, where a specific alloy's properties are required.
1.H14 Temper:
Application Fields: This temper means the aluminum sheet is partially annealed and strain-hardened. It has moderate strength and good workability, making it suitable for applications requiring forming and medium strength.
Examples:
Electrical Conductors: H14 offers a balance of strength and formability, making it suitable for electrical conductors and busbars.
Construction: People can use H14 sheets for roofing, wall cladding, and architectural components where moderate strength and formability are required.
Household Appliances: Due to its formability and corrosion resistance, it produces household appliances like oven liners and refrigerator components.
2.H16 Temper:
Application Fields: H16 temper is also partially annealed and strain-hardened, providing better strength than H14. People use it in applications requiring increased strength and formability.
Examples:
Electrical Conductors: H16 provides increased strength, making it suitable for heavy-duty electrical conductors.
Automotive Parts: Automotive applications use it for solid and formable components like heat shields.
General Fabrication: H16 is chosen in manufacturing and general fabrication when moderate strength and formability are needed.
3.H18 Temper:
Application Fields: H18 temper is stronger and more durable than H14 and H16 due to further annealing and strain hardening; this makes it suitable for applications requiring higher strength and formability.
Examples:
Aerospace: The aerospace industry uses H18 for components where high strength and formability are critical.
Marine Industry: It is used to construct ships and marine equipment that require enhanced strength and flexibility.
4. O (Annealed) Temper:
Application Fields: The "O" temper, or annealed temper, is the softest state for aluminum sheets. It has the lowest strength and is highly formable. People often use it in applications where extreme formability is required.
Examples:
Deep Drawing and Forming: The O temper is ideal for deep drawing and forming processes, making it suitable for products like cookware and kitchen utensils.
Packaging: People use it in producing aluminum foil for food packaging, where extreme formability is necessary.
General Forming: O temper is used in various industries for general forming applications due to its high formability.
1. Narrow Widths (1000 mm):
Applications: Roofers and siding contractors commonly use this width for roofing and siding applications.
Examples:
Roofing and Siding: Narrow sheets are commonly used for roofing and siding applications, providing ease of installation and efficient coverage.
2. Standard Widths (1,200 mm):
Applications: People commonly use this width for various purposes, such as construction and manufacturing. Many general applications can use it as a standard size.
Examples:
Construction: Roofers, wall cladding installers, and architects widely use standard-width sheets for roofing, wall cladding, and architectural components.
General Fabrication: People use them in various general fabrication applications, including manufacturing parts for machinery and equipment.
3. Intermediate Widths (1,500 mm):
Applications: People commonly utilize it in various industrial and architectural applications.
Examples:
Automotive Industry: In the automotive industry, manufacturers can use intermediate-width sheets for producing components such as interior trim, heat shields, and structural parts.
Marine Industry: In ship and marine industries, builders may use intermediate-width sheets to construct boat hulls and oceanic components.
4. Wide Widths ( 1,800 mm):
Applications: Industries such as automotive and aerospace specifically intend to use this product with larger sheet sizes.
Examples:
Aerospace: Wide-width sheets are ideal for aerospace, where larger components and structures require wide sheets.
Industrial and Heavy Machinery: Industries may employ them to produce parts for industrial and heavy machinery due to their larger size and capacity to accommodate substantial components.
5. Custom Widths:
Applications: Custom-width 1070 Aluminum Sheets reduce waste and meet unique project requirements.
APPLICATION FIELDS OF 1060 MILL FINISH ALUMINUM SHEETS IN DIFFERENT THICKNESS
1.0.2 mm to 1.0 mm Thickness:
Applications: Thin aluminum sheets in this thickness range suit applications requiring lightweight and highly formable materials.
Examples:
Packaging: Companies commonly use thin aluminum sheets between 0.2 mm and 1.0 mm thick in packaging materials, such as aluminum foil for food and beverage cans. The material's thin and pliable nature makes it advantageous.
Electronics: Lightweight and highly formable aluminum sheets are ideal for electronic components, such as casings and connectors.
2.1.0 mm to 2.0 mm Thickness:
Applications: Sheets in this thickness range are versatile and find applications in various industries due to their moderate strength and formability.
Examples:
Roofing and Cladding: Roofing, wall cladding, and interior architectural elements suit 1.0 mm to 2.0 mm thickness sheets due to their moderate strength and formability, making them ideal for creating durable and aesthetically pleasing surfaces.
Automotive Parts: In the automotive industry, sheets with a thickness within this range are helpful for manufacturing components such as interior trim and heat shields. The balance between strength and formability is beneficial in creating functional and durable automotive parts.
3.2.0 mm to 4.0 mm Thickness:
Applications: Medium-thickness sheets in the range of 2.0 mm to 4.0 mm are well-suited for applications that require a balance of strength and formability.
Examples:
Construction: The industry uses medium-thickness sheets for roofing, siding, and structural components. The strength of these sheets contributes to the structural integrity of construction materials.
General Manufacturing: These sheets find use in various manufacturing applications where a balance of strength and formability is required, including producing diverse components in industries such as automotive, machinery, and general fabrication.
4.4.0 mm to 6.0 mm Thickness:
Applications: Thicker sheets in the range of 4.0 mm to 6.0 mm are suitable for applications requiring increased strength.
Examples:
Heavy-Duty Structures: Applications requiring increased strength, such as structural components in bridges, utilize thicker sheets in this range, marine structures, and industrial machinery due to their thickness, providing the necessary robustness for heavy-duty structural elements.
Transportation: Manufacturers can employ them in manufacturing transportation equipment like trucks, trailers, and rail cars. The increased thickness enhances the strength and durability of components used in transportation.
5. Over 6.0 mm Thickness:
Applications: Applications requiring substantial strength and load-bearing capacity typically utilize sheets with thicknesses exceeding 6.0 mm.
Examples:
Aerospace: In the aerospace industry, manufacturers often use sheets with thicknesses exceeding 6.0 mm for manufacturing structural components; this includes critical parts such as aircraft wings and fuselages, whose thickness contributes to the required strength.
Industrial Machinery: Thick sheets produce heavy-duty industrial machinery and equipment components. In applications where high load-bearing capacity is essential, the thickness of these sheets ensures the durability and reliability of the machinery.
