Series: | |
---|---|
Temper: | |
Width: | |
Thickness: | |
Applications: | |
Standard: | |
Availability: | |
Quantity: | |
Product Description
"1200 Aluminum Circle" refers to circular or disc-shaped pieces made from the 1200 aluminum alloy. The 1200 aluminum alloy is a part of the 1xxx series of aluminum alloys known for their high purity. It primarily consists of aluminum (Al), with a small amount of copper (Cu) as the primary alloying element.
Chemical Composition | ||||||
Aluminum (Al) | Iron (Fe) | Silicon (Si) | Nickel (Ni) | Lead (Pb) | Sodium (Na) | chromium (Cr) |
99% | 0.1% | 0.05% | 0.05% | 0.05% | 0.05% | 0.05% |
Cookware: Aluminum circles, often made from alloys like 1050 or 3003, are widely used in the production of cookware such as frying pans, pots, and baking sheets. These circles are formed into the desired shape to create the base or body of the cookware.
Lighting: Aluminum circles can be used in the manufacture of reflectors for lighting fixtures. The high reflectivity of aluminum makes it suitable for enhancing the efficiency of lighting systems.
Traffic Signs: Some traffic signs and road markers are made from aluminum circles. The material's corrosion resistance and reflectivity are advantageous for outdoor applications.
Heat Exchangers: Aluminum circles can be used in the production of heat exchangers, where their high thermal conductivity is an asset.
Appliances: Aluminum circles are used in the production of various household appliances, such as rice cookers, pressure cookers, and coffee makers.
Electrical: In electrical applications, such as capacitor cases, aluminum circles made from high-purity alloys may be employed for their good electrical conductivity.
Decorative and Design Applications: Aluminum circles can be used for decorative purposes, such as in interior and exterior architectural designs or artistic installations.
Chemical and Pharmaceutical Equipment: In some cases, aluminum circles may be used in the construction of chemical and pharmaceutical equipment due to their corrosion resistance.
Food Packaging: Aluminum circles can be used in the production of containers and packaging materials for food and beverages. The aluminum's malleability allows it to be easily formed into different shapes.
General Fabrication: Aluminum circles can be used in various fabrication applications, including as blanks for stamping or forming into parts for different industries.
1. O (Annealed):
Applications: This is a soft temper where manufacturers fully anneal the aluminum to achieve the lowest strength and maximum formability. It is suitable for applications where extreme formability is required.
Examples:
Cookware: Manufacturers use annealed aluminum circles in production for their excellent formability.
2.H12 and H14:
Applications: H14 is a more moderately strain-hardened temper. It provides better strength and hardness than H12 while retaining some formability. People often use this temper when a balance between strength and formability is needed.
Examples:
Cookware: These tempers are commonly used in the production of cookware, providing the necessary balance between formability and strength. Cookware items such as pots, pans, and baking sheets benefit from these properties to ensure durability and efficient heat distribution.
Lighting: Manufacturers use the tempers for reflectors in lighting fixtures. The balance of formability and strength is valuable in shaping aluminum for efficient light reflection and distribution in various lighting applications.
Traffic Signs: Individuals can form the aluminum with these tempers into round road signs. Formability and strength are essential for creating durable, visible traffic signs that can withstand outdoor conditions.
General Fabrication: These tempers are suitable for stamping and forming parts in various industries. These tempers are versatile, so fabricators can use them in available fabrication processes where specific components and parts must be both formable and robust.
3.H16, H18, and H22:
Applications: H22 is a temper indicating a partially annealed condition with strain hardening. H18 is a more rigid temper than H16, with further strain hardening to increase strength and hardness. People commonly use it in applications requiring higher strength and deformation resistance.
Examples:
Cookware: These tempers are suitable for more robust cookware, providing higher strength and resistance to deformation; this is beneficial for producing durable and heavy-duty cookware items that can withstand rigorous use.
Heat Exchangers: Some heat exchanger components requiring higher strength use the tempers. The increased strength contributes to the reliability and efficiency of heat exchange processes.
Traffic Signs: The tempers are suitable for round road signs that withstand environmental conditions. The higher strength makes these signs durable and capable of withstanding the impact of weather and other external factors.
General Fabrication: In general fabrication applications where higher strength and some formability are required, people use these tempers. They are suitable for creating components and parts that need to balance strength with the ability to undergo specific forming processes.
4.H24, H26, and H32:
Applications: H26 offers even higher strength and hardness than H24 while still providing some formability.H32 represents a strain-hardened and stabilized temper. This material offers good formability and is often used in applications where it is bent or formed.
Examples:
Cookware: These tempers are suitable for more demanding cookware, providing even higher strength; this is crucial for producing heavy-duty and robust cookware that can withstand demanding cooking conditions.
Appliances: They are used to produce household appliances where strength is essential. The higher strength of these tempers contributes to the durability and longevity of various appliance components.
Lighting: These tempers are suitable for reflectors and lighting fixtures where durability is a factor. The increased strength ensures that the aluminum components can withstand the demands of lighting applications, providing both structural integrity and longevity.
Heat Exchangers: Heat exchanger components where mechanical properties are essential to use them. The higher strength of these tempers is advantageous in heat exchanger applications where the pieces must endure mechanical stresses and strains.
Electrical: Some electrical applications that require strength and formability may also benefit from these tempers. The combination of strength and formability makes them suitable for specific electrical components and applications.
5.H34 and H36:
Applications: H36 is a more rigid temper than H34, offering higher strength and resistance to deformation.
Examples:
Appliances: Appliances requiring high strength and resistance to deformation use these tempers; this is crucial for ensuring the durability and reliability of components within household appliances.
Heat Exchangers: The tempers are suitable for heavy-duty heat exchanger components. High strength is essential for withstanding heat exchanger applications' mechanical stresses and operational demands.
Chemical and Pharmaceutical Equipment: These tempers are valuable in highly-strength and corrosion-resistant applications. Their strength and resistance to deformation make them suitable for components in chemical and pharmaceutical equipment that must endure challenging conditions.
General Fabrication: In general fabrication, applications requiring superior strength use these tempers. The enhanced strength is advantageous for creating robust components and structures in various industries.
1. Small-diameter 1200 Aluminum Circles (100 mm - 300 mm):
Applications: Applications that require lightweight and compact components often use these smaller circles. Examples include small cookware items, decorative elements, and some electrical components.
Examples:
Cookware Industry: Small circles make compact cookware items like frying pans, small saucepans, and baking dishes.
Lighting Industry: People may employ smaller circles to make decorative lighting fixtures, lamp shades, and pendant lights for residential settings.
2. Medium-Diameter 1200 Aluminum Circles (300 mm - 600 mm):
Applications: People employ medium-sized circles in various applications, including standard cookware like frying pans and medium-sized lids for containers. Lighting industry professionals also use medium-sized circles for reflectors.
Examples:
Cookware Industry: Medium-sized cookware items such as stockpots, woks, and grills employ medium-sized circles.
Lighting Industry: Used for creating larger lighting fixtures and reflectors for industrial and outdoor lighting applications.
3. Large-diameter 1200 Aluminum Circles (600 mm - 1200 mm and beyond):
Applications: Larger circles are suitable for bigger cookware items, larger reflectors for industrial and outdoor lighting fixtures, and substantial components for various industries.
Examples:
Cookware Industry: Large circles are suitable for producing large and heavy-duty cookware like large stockpots and industrial frying pans.
Lighting Industry: Industrial and outdoor lighting fixtures requiring substantial reflectors to disperse light effectively use larger circles.
4. Very Large-Diameter 1200 Aluminum Circles (Above 1200 mm):
Applications: VIndustries may use large circles for industrial-scale cookware, large lighting fixtures, and oversized components for specific industrial applications.
Examples:
Specialized Applications: Large circles may find application in technical or custom manufacturing projects requiring oversized components, industrial equipment, or architectural elements.
APPLICATION FIELDS OF 1200 ALUMINUM CIRCLE IN DIFFERENT THICKNESS
1. Ultra-Thin to Thin Aluminum Circles (0.3 mm - 1.0 mm):
Applications: People use thin discs in various applications where formability and low weight are crucial, such as lightweight cookware or caps for bottles and containers.
Examples:
Packaging Industry: Manufacturers can use ultra-thin circles to produce lightweight and flexible aluminum foil for packaging materials. People may employ thin circles to make caps, lids, and closures for bottles and containers.
2. Medium Aluminum Circles (1.0 mm - 2.0 mm):
Applications: Medium-thickness discs are versatile for cookware and heat exchanger components. They offer reliable heat distribution and efficient energy transfer, making them a practical choice for professionals and home cooks alike.
Examples:
Cookware Industry: Medium-thickness circles suit standard cookware items like frying pans, saucepans, and baking dishes.
Heat Exchanger Industry: Used for some heat exchanger components where a balance between weight and strength is needed.
Electrical Industry: Can be used to construct electrical components that require moderate strength and flexibility.
3. Thick Aluminum Circles (2.0 mm - 4.0 mm):
Applications: Applications that require additional strength and durability utilize thick discs. Examples include heavy-duty cookware, heat exchanger parts, and specific electrical components.
Examples:
Cookware Industry: Users employ thick circles for heavy-duty cookware, such as large frying pans and stockpots.
Heat Exchanger Industry: Used for more substantial heat exchanger components in industrial and HVAC systems.
Electrical Industry: Suitable for larger electrical components that require increased strength.
4. Very Thick Aluminum Circles (4.0 mm and above):
Applications: Industries or heavy-duty applications typically use thick discs where structural integrity and durability are paramount. These may include large heat exchanger components, industrial cookware, and machinery components.
Examples:
Industrial Cookware Industry: People can use thick circles to produce industrial-grade cookware, catering to large-scale cooking needs.
Heavy-Duty Applications: Various components use thick circles in industries that demand substantial structural integrity and durability.