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Product Description
1350 Mill Finish Aluminum Sheets are aluminum sheets made from high-purity aluminum alloy 1350, featuring a smooth, untreated surface finish. Industries primarily use these sheets in electrical and electronic applications where high electrical conductivity is essential.
Chemical Composition | |||||||
Aluminum (Al) | Iron (Fe) | Silicon (Si) | Copper (Cu) | Zinc (Zn) | Manganese (Mn) | Titanium (Ti) | Chromium (Cr) |
99.5% | 0.1% | 0.1% | 0.1% | 0.1% | 0.05% | 0.05% | 0.05% |
Electrical and Electronics Industry:
Electrical Conductors: Manufacturers commonly use 1350 Mill Finish Aluminum Sheets to manufacture electrical conductors, including wires and cables. Their high electrical conductivity ensures efficient transmission of electrical current.
Busbars: Users use these sheets to create busbars, essential components in electrical distribution systems for efficiently distributing electrical power.
Transformer Windings: Manufacturers use 1350 aluminum sheets in the windings of power transformers, where high electrical conductivity is required to minimize energy losses during electrical transformations.
Overhead Power Lines: In some cases, industries use 1350 aluminum in overhead power transmission lines, particularly for short-distance power distribution where its excellent electrical conductivity is advantageous.
Electrical Connectors: The malleability and conductivity of 1350 aluminum sheets make them suitable for manufacturing electrical connectors and terminals. They ensure reliable and efficient electrical connections in various applications.
Heat Transfer Applications: 1350 aluminum sheets can be used in heat transfer applications requiring high thermal conductivity, although less common. Designers or engineers may also prefer them for their natural mill finish in heat exchangers or radiator designs.
Custom Fabrication: Some industries and applications may require custom fabrication of aluminum components with specific electrical and thermal properties. 1350 Mill Finish Aluminum Sheets are the base material for such custom fabrication.
Automotive Industry: In automotive manufacturing, 1350 aluminum sheets can find application in specific electrical components and systems, such as in electric and hybrid vehicles.
Aviation: In the aerospace and aviation sectors, engineers may use these sheets in electrical and electronic components where high conductivity and lightweight materials are needed.
Aerospace and Renewable Energy: With the increasing emphasis on renewable energy sources, industries could use 1350 aluminum sheets in various renewable energy systems, including solar power installations and wind turbines.
Construction and Architecture: In architectural applications, designers might use these sheets for decorative elements or building components where a natural mill finish provides a particular aesthetic.
1.H0 (Annealed):
Application: The aluminum sheet has undergone full annealing to remove internal stresses. Its high malleability and ease of work make annealed 1350 aluminum a preferred choice when extreme softness and flexibility are necessary, especially for deep drawing applications.
Examples:
Electrical Conductors: Many prefer the annealed temper for making electrical conductors, wires, and cables. Its soft and malleable nature facilitates easy fabrication and bending, making it suitable for applications where flexibility is essential.
Transformer Windings: In transformer windings, the annealed temper may form the necessary shapes and windings with minimal effort.
2.H14:
Application: This temper signifies that the aluminum sheet has been strain-hardened and partially annealed, resulting in improved hardness and mechanical properties. H14 aluminum is still relatively soft and malleable but offers slightly better strength and formability than annealed (H0) aluminum.
Examples:
Electrical Components: Industries use H14 aluminum sheets in electrical components that require a balance between malleability and mechanical strength. This temper can be suitable for busbars and electrical connectors.
Architectural Applications: In architectural applications, where a specific design requires some formability, designers may use H14 sheets for decorative elements.
3.H16:
Application: H16 temper indicates a higher strain hardening level and increased hardness than H14. People often choose it when more strength is required while maintaining good formability.
Examples:
Electrical Busbars: H16 aluminum sheets are employed when greater mechanical strength is necessary for busbars in electrical distribution systems.
Automotive Components: In the automotive industry, H16 aluminum may find use in electrical components or systems, especially in electric or hybrid vehicles.
4.H18:
Application: H18 represents the highest level of strain hardening among the common tempers for 1350 aluminum. It offers the best mechanical properties in strength and hardness. Still, it may have reduced formability compared to the softer tempers. H18 aluminum sheets are suitable for applications where greater strength is essential.
Examples:
High-Strength Electrical Connectors: People require H18 aluminum sheets for applications where maximum mechanical strength is necessary for electrical connectors, especially in high-stress environments.
Aerospace and Aviation: Industries or individuals can use H18 aluminum in applications where strength and lightweight materials are crucial in the aerospace sector.
APPLICATION FIELDS OF 1350 MILL FINISH ALUMINUM SHEETS IN DIFFERENT WIDTH
1. Narrow Widths (e.g., 1000mm)
Application: This is a standard width for industrial and electrical applications.
Examples:
Electrical Wiring and Cables: Manufacturers often use narrow-width aluminum sheets to produce electrical wiring, cables, and conductors. One can slit the sheets into smaller widths suitable for these applications.
Transformer Windings: For transformer windings, one can use narrow-width sheets when specific dimensions require them.
2. Standard Widths (e.g., 1200 mm):
Application: This refers to another standard size commonly used in various industries, especially for larger sheets.
Examples:
Electrical Busbars: Manufacturers commonly use standard-width sheets for manufacturing electrical busbars and distribution components.
Architectural Applications: Architects can employ these sheets for architectural elements that require standard-sized panels or components.
3. Wider Widths (e.g., 1500 mm):
Application: Applications that require larger sheet sizes and surface coverage typically use this wider width.
Examples:
Large Electrical Components: Wider sheets are suitable for manufacturing larger electrical components, such as distribution boards and panels.
Construction and Building Panels: Wider sheets can be used for panels or cladding in the construction industry.
4. Custom Widths:
Application: Manufacturers can produce 1350 Mill Finish Aluminum Sheets in custom widths to meet the exact specifications of a customer's application. People often choose custom widths when standard sizes do not meet specific project requirements.
Examples:
Specialized Applications: In specialized applications where standard sizes are unsuitable, people often use custom widths, including unique electrical components or products with non-standard dimensions.
Industrial and Manufacturing Equipment: In industries where specific sizing is critical, companies can use custom widths for components and equipment.
APPLICATION FIELDS OF 1350 MILL FINISH ALUMINUM SHEETS IN DIFFERENT THICKNESS
1. Ultra-Thin (0.1 mm to 0.3 mm):
Application: People often use these ultra-thin sheets where extreme flexibility, lightweight construction, or precise electrical conduction is required.
Examples:
Electrical Foils: People commonly use these ultra-thin sheets to produce electrical foils for capacitors and other electronic components.
Battery Packaging: In certain battery technologies, such as lithium-ion batteries, ultra-thin aluminum sheets are used in packaging battery cells.
2. Thin (0.4 mm to 1.0 mm):
Application: Sheets in this thickness range are versatile and find use in a wide range of applications, including electrical conductors, transformer windings, and electrical connectors. They offer a good balance of flexibility and strength.
Examples:
Electrical Conductors: Sheets in this thickness range manufacture electrical conductors, wires, and cables. They are suitable for applications where flexibility and efficient electrical conduction are essential.
Transformer Windings: Thin sheets are used in the windings of transformers, providing a balance between formability and electrical performance.
3. Medium Thickness (1.1 mm to 2.0 mm):
Application: These sheets are suitable for applications requiring increased structural integrity, such as busbars and specific architectural applications. They offer enhanced strength while remaining formable.
Examples:
Busbars: In electrical distribution systems, where strength and formability are required, people commonly use medium-thickness sheets for busbars.
Electrical Connectors: They can also manufacture electrical connectors and terminals in applications where mechanical durability is essential.
4. Thick (2.1 mm and above):
Application: In applications where higher structural strength is paramount, people use thicker sheets in this range. People may use them for busbars or larger structures.
Examples:
Structural Components: In industrial and electrical applications, manufacturers utilize thick sheets for manufacturing larger structural components, including busbars, frames, and panels.
Custom Fabrication: Individuals or companies may choose them for custom fabrication in various industries where specific thicknesses are necessary to meet structural or design requirements.