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Product Description
| Chemical Composition | |||||||
| Aluminum (Al) | Iron (Fe) | Silicon (Si) | Copper (Cu) | Zinc (Zn) | Manganese (Mn) | Titanium (Ti) | Other Elements |
| 99.6% | 0.05% | 0.03% | 0.05% | 0.05% | 0.03% | 0.03% | Trace amounts |
Cookware: People use 1060 Aluminum Circles to produce cookware, including pots, pans, and lids. Their excellent formability allows for the creation of complex shapes, and their good heat conductivity ensures even cooking.
Lighting Fixtures: Aluminum circles make lighting fixtures, particularly in producing lampshades and reflectors. The reflective properties of aluminum enhance the illumination of light fixtures.
Electrical Components: Due to its high electrical conductivity, 1060 aluminum circles manufacture electrical components such as capacitor cases and housings. Its conductivity makes it suitable for applications where efficient heat dissipation is essential.
Signage and Nameplates: You can use aluminum circles to produce signage, nameplates, and decorative elements for buildings and vehicles. Their ease of engraving and embossing makes them suitable for this purpose.
General Fabrication: Various fabrication and manufacturing processes use these circles. Their malleability and ease of forming make them valuable for stamping, spinning, and other metalworking operations.
Automotive and Aerospace Applications: In the automotive and aerospace industries, You can use 1060 aluminum circles to create parts with specific shapes and tolerances for spinning and pressings.
Construction Materials: People may use 1060 Aluminum Circles in construction materials, such as roofing and insulation, to take advantage of their lightweight properties and corrosion resistance.
Consumer Electronics: In consumer electronics, aluminum circles may find application in components that require good electrical conductivity and lightweight construction.
Reflective Surfaces: Manufacturers use aluminum circles to produce reflective surfaces, such as mirrors, road signs, and decorative items.
1. O Temper (Annealed):
Application Fields: The O temper is the softest and most ductile condition. In the O temper, 1060 Aluminum Circles undergo full annealing, which makes them very malleable and easy to work with. They have low strength but are highly formable and suitable for applications that require extensive shaping and forming.
Examples:
Cookware: People commonly use O temper to produce cookware like pots and pans. Its high formability makes it ideal for deep-drawing and shaping.
2.H12, H14, H16, H18:
Application Fields: These tempers involve the aluminum material's strain hardening (cold working) to increase strength. They progressively increase hardness and tensile strength from H12 (softest) to H18 (hardest). People commonly use these tempers when they require a balance between formability and strength.
Examples:
Cookware: Tempers in cookware production balance formability and strength, producing durable and well-shaped items.
General Fabrication: H12-H18 tempers are suitable for stamping and fabrication, requiring moderate strength and good formability. They are ideal for metal components with mild strength and find everyday use in manufacturing, automotive, and fabrication applications.
3.H22, H24, H26, H28:
Application Fields are similar to the H12, H14, H16, and H18 tempers but with additional controlled stretching after the cold work. They offer improved strength and find use in applications where formability and some extra strength are needed.
Examples:
Cookware: Similar to H12-H18, these tempers, which offer improved strength, can be used in cookware production. People choose them when the cookware requires more strength than what is typically provided by the O temper. This enhanced strength is beneficial for ensuring the durability and longevity of the cookware.
General Fabrication: These tempers are a suitable choice in applications requiring extra strength compared to the O temper. They provide increased strength while retaining reasonable formability, making them ideal for a wide range of fabrication and manufacturing applications requiring a balance between strength and workability.
4.T4 and T6:
Application Fields: These tempers involve heat treatment to provide even higher strength. T4 is a solution heat-treated condition, while T6 involves additional artificial aging. In applications requiring greater strength and hardness, people typically use these tempers.
Examples:
Aerospace: In aerospace applications where high strength and hardness are crucial, people often employ T4 and T6 tempers. Components that need to withstand high stress, load conditions, and potentially extreme environments use these tempers. They provide the necessary strength and durability required in aerospace structures and parts.
Structural Components: T4 and T6 tempers can manufacture structural components, such as extrusions, for construction and architectural purposes. These tempers provide the strength needed for structural stability and load-bearing capacity in buildings and other architectural applications.
High-Stress Applications: T4 and T6 tempers are suitable for applications where aluminum components need to maintain their strength under heavy loads and high-stress conditions. They can include a wide range of industrial and manufacturing uses and automotive and machinery parts that require extra strength and reliability.
1. Small Width Circles (e.g., 100mm to 250mm):
Applications:
Cookware and Kitchen Utensils: Cookware manufacturers commonly use smaller-width circles to produce small pots, pans, and cooking utensils, such as frying pans, saucepans, and lids. These circles are ideal for creating compact and functional kitchen tools.
Lighting Fixtures: Manufacturers can use small aluminum circles to manufacture smaller lighting components, such as lampshades for table lamps. Their malleability allows for the creating of various intricate designs and shapes in lighting fixtures.
Decorative Crafts: Small aluminum circles are popular in crafting and DIY projects for creating decorative elements or personalized items. You can easily shape and decorate them to suit various creative endeavors, such as jewelry, ornaments, and custom decorations.
2. Medium Width Circles (e.g., 300mm to 450mm):
Applications:
Larger Cookware: Cookware manufacturers commonly employ medium-width circles in producing larger cookware, such as woks, larger frying pans, and more bottomless pots. These circles provide the necessary size and structural support for cooking utensils requiring a larger surface area.
Signage: Manufacturers can use medium-width circles to create mid-sized signs and nameplates for various applications. Their size and formability make them suitable for producing signage for businesses, institutions, and other purposes.
Architectural Elements: Architects may use medium-width circles to construct architectural elements like round windows, decorative grilles, and column bases. Their formability and size are advantageous for creating various architectural details and structural components in buildings and structures.
3. Large Width Circles (e.g., 500mm and above):
Applications:
Industrial and Commercial Cookware: Larger circles are suitable for industrial and commercial cooking equipment, such as large-scale frying equipment, industrial-sized pots, and other cooking utensils used in restaurants, catering, and food processing industries. Their size and durability are essential for meeting the demands of high-volume cooking.
Traffic Signs: People may use these circles to produce large traffic signs, especially for highway and roadway signage. The large size allows for increased visibility, and aluminum's corrosion resistance ensures the longevity of the signs in outdoor environments.
Industrial Machinery: Manufacturers can use large-width circles to fabricate parts for industrial machinery, particularly in applications where a circular shape is required. They provide a robust and reliable component for various machinery and equipment, contributing to their performance and structural integrity.
1. Thin Thickness (0.3mm to 1.0mm):
Applications: Manufacturers use thin aluminum circles to manufacture enclosures, panels, and components for consumer electronics and household appliances.
Examples:
Cookware Lids: People commonly use thin aluminum circles to create lids for various types of cookware, including pots and pans. Their lightweight and formable nature make them ideal for this purpose, allowing for easy handling and a snug fit on the cookware.
Capacitor Foils: In electronics, thin 1060 aluminum circles manufacture capacitor foils. Manufacturers highly value these foils for their excellent electrical conductivity, crucial in producing capacitors and other electronic components.
2. Medium Thickness (1.0mm to 3.0mm):
Applications: They find applications in architectural and construction projects for decorative cladding, column bases, and custom architectural designs.
Examples:
Cookware Bases: Manufacturers commonly use aluminum circles with medium thickness to create the bases or bottoms of various cookware items, such as frying pans and woks. These circles provide the structural support required for practical and durable cookware.
Signage and Nameplates: Medium-thickness aluminum circles are suitable for making nameplates and signage for various applications, including buildings, vehicles, and machinery. Their durability and versatility make them a popular choice for labeling and branding.
Lighting Reflectors: In lighting fixtures, medium-thickness circles can manufacture reflectors. Their formability allows for the creating of efficient and well-distributed light in various lighting applications.
3. Thicker Thickness (3.0mm and above):
Applications: They may find use in the aerospace industry for specific components requiring a thicker, more robust material.
Examples:
Cookware Bodies: Manufacturers commonly employ thicker aluminum circles to fabricate the central bodies of heavy-duty cookware, such as stock pots and large cooking vessels. Their thickness provides the necessary structural strength and durability for these cookware items.
Industrial Components: Various industries use thicker circles in components where structural strength and rigidity are essential. They are valuable in manufacturing spinnings and pressings, where the members must withstand mechanical stress and wear.
Aerospace and Automotive: The aerospace and automotive industries may use thicker aluminum circles for specific structural components. Their strength and durability make them suitable for applications requiring lightweight yet robust materials, such as certain parts in aircraft and automobiles.
