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Product Description
3003 Aluminum Circle is a circular piece or disc-shaped component made from aluminum alloy 3003. Its circular shape and desirable properties for various applications result from the production of a specific grade of aluminum alloy.
Chemical Composition | |||||||
Aluminum (Al) | Iron (Fe) | Silicon (Si) | Copper (Cu) | Zinc (Zn) | Manganese (Mn) | chromium (Cr) | Titanium (Ti) |
99.5% | 0.0%-0.7% | 0.6% | 0.2% | 0.1% | 0.1%-1.5% | 0.1% | 0.1% |
Cookware and Kitchen Utensils: Manufacturers extensively use 3003 Aluminum Circles to produce cookware, such as pots, pans, woks, and baking sheets. Their excellent heat conductivity, corrosion resistance, and ease of forming make them an ideal choice for cooking utensils.
Food and Beverage Packaging: Manufacturers use circular aluminum blanks to manufacture food and beverage containers, including cans, lids, and caps. The corrosion-resistant properties of 3003 aluminum ensure the long-term integrity of the packaging.
Lighting Fixtures: In the lighting industry, 3003 Aluminum Circles make reflectors, lampshades, and other components. The reflective nature of aluminum and its ability to form into various shapes offer advantages for this application.
Traffic Signs: Manufacturers use circular aluminum blanks to produce traffic signs, which demand durability, corrosion resistance, and the ability to withstand outdoor exposure to varying weather conditions.
Pressure Vessels and Tanks: Some industrial applications involve the use of 3003 Aluminum Circles for the construction of pressure vessels, tanks, and other containers. The corrosion resistance of the alloy is critical in these applications.
Heat Exchangers and Radiators: Manufacturers use aluminum circles to create heat exchanger components and radiator fins. Their thermal conductivity and formability are essential for efficient heat transfer in HVAC and automotive applications.
Appliances: The appliance industry uses 3003 Aluminum Circles for various components, including the base of electric rice cookers, inner pots of rice cookers, and other appliance parts.
Architectural and Decorative Applications: Architects and designers use circular aluminum discs in architectural elements and decorative trim. Their corrosion resistance and the ability to receive different surface treatments make them suitable for various design and construction purposes.
General Fabrication: These aluminum circles find utility in various available fabrication processes, such as custom metal fabrication, industrial components, and artistic creations, where a circular aluminum shape is needed.
Automotive Parts: Some automotive applications may use 3003 Aluminum Circles for components like fuel tank caps or structural parts due to their lightweight properties and corrosion resistance
1. O (Annealed) Temper:
Application Industries: The 'O' temper is ideal for industries that require extreme formability and where the material needs to shape easily without cracking or breaking.
Examples:
Cookware Industry: The cookware industry uses O-tempered aluminum to make pots, pans, and other cooking utensils. Its high formability allows manufacturers to easily shape and mold the aluminum into the desired cookware forms through processes like deep drawing.
Lighting Industry: The O temper suits the lighting industry, particularly in manufacturing lampshades and reflectors. Forming intricate shapes is crucial in creating efficient and aesthetically pleasing lighting components.
2.H12 Temper:
Application Industries: H12 combines formability with slightly improved strength, making it suitable for industries where both properties are essential.
Examples:
Cookware Industry: The H12 temper is suitable for pans and woks in the cookware industry, offering the right balance of formability and strength. This temper increases power compared to softer tempers while retaining sufficient formability. It is ideal for shaping cookware components that need to withstand mechanical stresses during cooking.
Architectural Industry: H12 temper is also applicable in the architectural industry, particularly for components like decorative trim and architectural elements that demand both formability and stability. This temper allows for the creating of intricate designs and shapes while providing the necessary strength for stability and durability in architectural applications.
3.H14 Temper:
Application Industries: Choosing H14 is suitable for applications that require a higher level of strength while still retaining formability.
Examples:
Roofing and Cladding Industry: People use H14 temper for its strength and formability in roofing materials and cladding. This temper balances formability and strength, making it suitable for shaping into roofing components and cladding materials.
Pressure Vessels: In constructing tanks and pressure vessels, where a balance between formability and strength is crucial, the H14 temper is a fitting choice. It ensures that the aluminum can be formed into the necessary shapes while offering the required strength for pressure vessel applications.
Automotive Industry: The automotive industry uses H14 temper for specific parts like fuel tank caps. The strength and formability characteristics of H14 make it suitable for manufacturing components that require both properties.
4.H16 Temper:
Application Industries: H16 offers even greater strength through work hardening, and industries with higher structural requirements use it.
Examples:
Industrial Containers: The H16 temper is ideal for applications that demand structural integrity, such as drums, containers, and pressure vessels. Its higher strength than softer tempers makes it suitable for manufacturing industrial containers that withstand mechanical stresses.
Aerospace Industry: In the aerospace industry, components requiring high strength and reliability often use the H16 temper. This temper provides the necessary strength and durability for aerospace applications where the materials must withstand high stress and load conditions.
5.H18 Temper:
Application Industries: The most rigid temper, H18, provides maximum strength, and industries that require the utmost strength and durability use it.
Examples:
Aerospace Industry: The aerospace industry often uses T4 and T6 tempers for critical components, such as aircraft structural parts and engine components. These tempers provide high strength and hardness, crucial properties for components that must withstand the demanding conditions of aerospace applications.
Heavy-Duty Structural Elements: In applications like heavy machinery and construction where maximum strength is vital, the T4 and T6 tempers are suitable. These tempers ensure that the aluminum components can provide the required strength and durability for heavy-duty structural elements.
1. Small Diameter Aluminum Circles (50 mm to 150 mm):
Applications: The adaptability of small-diameter aluminum circles in these diverse applications showcases their utility in crafting household items and electronic components, emphasizing their role in various industries.
Examples:
Small Cookware: Manufacturers commonly use small aluminum circles to produce small pots, pans, and cooking utensils for household use. Their size is ideal for crafting compact and efficient kitchenware.
Crafts and Art: The small discs find application in craft projects, jewelry making, and artistic endeavors due to their manageable size. Artists and artisans can create intricate designs and personalized items in these circles.
Electronics: Manufacturers can use these small aluminum circles in electronic and electrical components where space constraints demand small circular shapes. Their compact size makes them suitable for applications in electronic devices with limited space.
2. Medium Diameter Aluminum Circles (150 mm to 300 mm):
Applications: Using medium-diameter aluminum circles in these applications demonstrates their adaptability across industries, from cookware manufacturing to lighting and automotive components.
Examples:
Standard Cookware: Manufacturers commonly use medium-sized aluminum circles to produce standard-sized cooking pots and pans. Their size is suitable for creating kitchenware items that balance capacity and ease of use.
Lighting Fixtures: Medium-sized circles find application in producing medium-sized lampshades, reflectors, and lighting components. Their dimensions make them suitable for manufacturing lighting fixtures that provide moderate light and maintain an aesthetically pleasing design.
Automotive Components: Some automotive parts, like fuel tank caps, may utilize medium-sized circles. Their versatility makes them applicable in the automotive industry for producing components that require a combination of formability and strength.
3. Large Diameter Aluminum Circles (300 mm to 500 mm):
Applications: Using large-diameter aluminum circles in these applications emphasizes their role in heavy-duty and critical industries, where size and strength are crucial considerations.
Examples:
Industrial Containers: Large aluminum circles manufacture industrial containers, including drums, large containers, and pressure vessels. Their size and strength make them well-suited for applications requiring substantial structural integrity.
Heavy Machinery Parts: Industries can employ large aluminum circles in applications requiring substantial circular components, such as in constructing and manufacturing heavy machinery. The size and strength of these circles contribute to the durability and stability of the machinery.
Aerospace Components: Certain aerospace components may require larger discs for structural parts. Large-diameter aluminum circles are used in the aerospace industry to meet structural components' specific size and strength requirements in aircraft and space applications.
4. Extra-Large Diameter Aluminum Circles (500 mm and above):
Applications: The utilization of extra-large diameter aluminum circles in these applications highlights their role in addressing the specific requirements of industries that necessitate significant size and strength for their components.
Examples:
Oversized Industrial Containers: Industries employ extra-large diameter aluminum circles in specialized industrial applications that demand extensive volume and structural integrity. These circles are suitable for manufacturing big containers, drums, or vessels requiring substantial capacity and robust construction.
Oversized Structural Elements: Construction and machinery applications use extra-large diameter aluminum circles for stability and support. These large circles contribute to the stability and structural integrity of large-scale buildings or heavy machinery.
1. Thin Aluminum Circles (0.3 mm to 1 mm):
Applications: The use of thin aluminum circles in these applications underscores their significance in industries where lightweight materials are vital in achieving desired performance characteristics.
Cookware: People use thin aluminum circles from 0.3 mm to 1 mm thick to produce lightweight cooking pans and pots. Their slim profile allows for quick and even heating, making them ideal for cooking applications where heat distribution is crucial.
Electronics: Their lightweight nature is advantageous in electronic applications where weight is crucial for portability and overall device design; therefore, they are helpful in countless practical scenarios.
Aerospace: Specific lightweight aerospace components can use thin circles in the specified thickness range. In the aerospace industry, where minimizing weight is critical for fuel efficiency and overall performance, thin aluminum circles produce lightweight and efficient aerospace components.
2. Medium Thickness Aluminum Circles (1 mm to 3 mm):
Applications: The use of medium-thickness aluminum circles in these applications demonstrates their ability to meet the specific requirements of industries that demand a combination of strength, durability, and weight considerations.
Cookware : typically uses medium-thickness aluminum circles ranging from 1 to 3 millimeters in thickness. A variety of cooking utensils and pans use these circles. They balance weight and durability, strong enough for cooking tasks and light enough to handle easily.
Pressure Vessels: Manufacturers employ medium-thickness aluminum circles to produce pressure vessels, tanks, and containers. Their moderate thickness provides the necessary strength for these applications, ensuring structural integrity and durability.
Automotive Industry: Medium-thickness aluminum circles find application for certain automotive parts where thickness impacts both weight and strength. The balance between weight and strength makes them suitable for manufacturing components in the automotive industry.
3. Medium to Thick Aluminum Circles (3 mm to 6 mm):
Applications: The use of thick aluminum circles in these applications highlights their role in industries where structural strength, durability, and the ability to withstand heavy loads are essential considerations.
Industrial Containers: Thick aluminum circles manufacture industrial drums, large containers, and heavy-duty pressure vessels. The greater thickness contributes to the structural integrity of these containers, ensuring they can withstand the mechanical stresses associated with industrial use.
Heavy Machinery: Thick aluminum circles find application in producing heavy machinery and equipment components. The thickness contributes to the strength and durability of the members, making them suitable for heavy-duty machinery applications.
Structural Elements: Builders employ thick aluminum circles in construction applications where thickness is crucial for structural support. These circles provide the necessary strength and stability for structural elements, contributing to the overall integrity of construction projects.