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Product Description
| 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 Conductors: One of the most prominent applications for 1350 Aluminum strips is manufacturing electrical conductors; this includes power transmission and distribution lines, overhead power lines (or power cables or transmission lines), and underground electrical cables. The high electrical conductivity of 1350 aluminum reduces energy losses during electricity transmission.
Busbars: A 1350 Aluminum Strip is often used to make busbars; They use it to distribute electrical power within electrical panels and switchgear. Maximize the efficiency of your electrical distribution systems with 1350 aluminum. Its high conductivity ensures optimal transmission of electrical current, powering your operations with ease.
Transformer Windings: Windings in transformers commonly use 1350 Aluminum Strips, including distribution and power transformers. Its electrical properties make it ideal for use in the coils and windings of these devices.
Electrical Cables and Wiring: Producers utilize it in producing electrical cables and wiring, particularly for applications where high electrical conductivity is essential; this can include building wiring, industrial wiring, and specialized electrical installations.
Corona Rings and Electrical Accessories: In electrical engineering, high-voltage systems use corona rings to reduce corona discharge. 1350 Aluminum Strip is sometimes used to manufacture corona rings and other electrical accessories.
Electrical Connectors and Contacts: Due to its electrical conductivity and formability, Manufacturers employ 1350 Aluminum strips in manufacturing electrical connectors, contacts, and terminals used in various electrical equipment and systems.
Other Electrical Components: It may find use in various electrical components and systems where high electrical conductivity, lightweight construction, and corrosion resistance are required.
1. O Temper or Annealed:
Application Fields: The aluminum strip is highly soft and malleable, making it suitable for applications where flexibility and formability are critical. This temper is often used in transformer windings and for applications that require extensive bending or shaping.
Examples:
Transformer Windings: H0 1350 Aluminum Strip is used extensively in the windings of distribution and power transformers due to its excellent formability and electrical conductivity.
Electrical Cables: Producers utilize annealed 1350 Aluminum Strips to produce electrical cables, particularly for applications where flexibility and the ability to be coiled and uncoiled are essential.
Capacitors: H0 temper aluminum strips are crucial in capacitor production due to their flexibility and electrical properties in the electrical industry.
2.H12 Temper or Quarter Hard:
Application Fields: The H12 balance between formability and strength makes it ideal for applications where some degree of hardness and formability are required. Engineers and designers use H12 in electrical conductors, busbars, and applications that require moderate strength and bending.
Examples:
Busbars: The H12 aluminum strip is well-suited for busbars. Distribution of electricity within electrical panels and switchgear uses its formability and strength.
Electrical Connectors: Electrical manufacturers use H12 temper for connectors, terminals, and contacts, which require hardness and formability balance.
Coils for Inductors: People often use H12 aluminum strips to produce coils for inductors and other electronic components.
3.H14 Temper or Half Hard:
Application Fields: H14 provides increased stiffness and strength compared to H12. People commonly use it for electrical conductors, busbars, and other applications where a balance between formability and mechanical properties is required.
Examples:
Overhead Power Lines: Commonly, people use the H14 aluminum strip in overhead power lines and transmission cables due to its moderate strength and formability.
Distribution Transformers: In manufacturing distribution transformers, people use the H14 aluminum strip in overhead power lines and transmission cables due to its moderate strength and formability.
Electrical Grid Components: Various electrical grid components, including circuit breakers, contactors, and control equipment, use the H14 temper.
4.H16 Temper or Three-Quarter Hard:
Application Fields: H16 is harder than H14, offering higher strength and stiffness. People use it in applications that require greater strength while maintaining some level of formability. This temper is suitable for busbars and electrical conductors in specific applications.
Examples:
Substation Busbars: Substation busbars and power distribution components use H16 aluminum strips where greater strength and stiffness are required.
High-Voltage Cables: H16 is suitable for high-voltage cables that require improved mechanical properties while retaining some formability.
Electrical Panel Enclosures: Electrical panel and control cabinet manufacturers can use this temper to manufacture enclosures.
5.H18 Temper or Full Hard:
Application Fields: H18 is the most rigid temper, offering the highest level of strength and stiffness but with reduced formability. Engineers and designers often use H14 aluminum in applications where extreme strength is required, such as in high-stress electrical conductors and busbars for high-power transmission.
Examples:
High-Stress Electrical Conductors: People utilize H18 in high-stress electrical conductor applications, such as high-power transmission lines, where extreme strength and stiffness are paramount.
Heavy-Duty Busbars: In high-current and heavy-duty electrical applications, People use H18 for busbars that need to withstand substantial electrical loads.
Power Generation Equipment: Users may employ H18 aluminum strips in power generation equipment, including generators and turbines, where robust mechanical properties are necessary.
1. Narrow Strips (5 mm to 100 mm or more):
Applications: People often use narrow strips where precision and tight tolerances are required, such as electronics and small-scale components.
Examples:
Electronics: Various electronic components use narrow strips where precision and lightweight conductive material are required; this includes integrated circuits, sensors, and connectors.
Electrical Contacts: In small electrical components and switches, engineers often use narrow strips as electrical contacts.
Heating Elements: People may utilize narrow strips in heating elements for appliances like toasters and hair dryers.
Printed Circuit Boards (PCBs): Very narrow strips can serve as conductive traces in PCBs, especially in compact electronic devices.
2. Intermediate Widths (100 mm to 500 mm or more expansive):
Applications: People use these in various applications, including electrical conductors and busbars.
Examples:
Electrical Conductors: Electrical engineers and manufacturers commonly use intermediate-width strips in electrical conductors, such as wires and cables for power distribution and industrial wiring.
Busbars: These strips are suitable for electrical panels and distribution systems that transmit electricity to various components.
Transformer Windings: You can use intermediate-width strips in transformer windings for both distribution and power transformers.
Power Cables: Medium and high-voltage power cables used for power transmission and distribution contain them.
3. Wide Strips (Several hundred millimeters to over 1,000 mm):
Applications: People often use these in large-scale applications such as overhead power lines and electrical cables.
Examples:
Overhead Power Lines: Utility companies typically use wide strips of 1350 Aluminum for overhead power lines and transmission cables.
Distribution Transformers: You can use wider strips to construct distribution transformers, which step down voltage for local distribution.
Substation Busbars: People use wide strips for busbars that transmit electricity to various parts of the substation.
Heavy-Duty Electrical Conductors: Engineers often use these wide strips in high-power and heavy-duty electrical conductors, particularly in industrial and utility applications.
1. Thin Strips (0.1 mm to 1 mm):
Applications: Engineers often use thin strips where lightweight, flexible, and highly conductive material is essential, such as electrical connectors and thin conductive sheets.
Examples:
Electrical Connectors: People use thin strips in electrical connectors and terminals due to their lightweight and highly conductive nature.
Electrical Contacts: In small electrical components and switches, engineers employ thin strips as electrical contacts.
Flexible Heaters: You can use Thin 1350 Aluminum Strips in flexible heating elements, such as automotive seat warmers and underfloor heating systems.
Electromagnetic Shielding: Applications that require electromagnetic shielding use thin strips, such as in electronics and data cables.
2. Intermediate Thickness (1 mm to 3 mm):
Applications: People use these in various electrical and power transmission applications, such as electrical conductors, transformer windings, and busbars.
Examples:
Electrical Conductors: Electrical engineers commonly use intermediate-thickness strips in electrical conductors, such as wires and cables for power distribution and industrial wiring.
Transformer Windings: People use these strips in transformer windings for distribution and power transformers.
Busbars: Intermediate-thickness strips are suitable for busbars used in electrical panels and distribution systems that transmit electricity to various components.
Coils for Inductors: In electrical components, You can use these strips in coils for inductors and transformers.
3. Thicker Strips (3 mm and above):
Applications: People commonly use them in applications requiring greater mechanical strength and durability. Examples include overhead power lines and heavy-duty electrical conductors.
Examples:
Overhead Power Lines: Utility companies typically use thick strips of 1350 Aluminum for overhead power lines and transmission cables because they can carry large amounts of electricity over long distances.
Distribution Transformers: Engineers use thicker strips to construct transformers, which step down voltage for local distribution.
Substation Busbars: In power substations, People use thick strips for busbars that transmit electricity to various parts of the substation.
Heavy-Duty Electrical Conductors: Engineers use thick strips in high-power and heavy-duty electrical conductors, particularly in industrial and utility applications.
