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Application:
Used for intermediate transition connection of aluminium cable or aluminium alloy cable with copper cable in medium voltage. From 16 to 400 mm² for AL conductor and 10 to 300 mm² for CU conductor.
Material: Al ≥ 99.5%, Cu ≥ 99.9%
Feature:
• Oil blocking structure
• Friction welded
• Clear markings on barrel to indicate correct crimping location.
Standard: IEC61238-1:2003
GTL
QLG
The GTL Type Bimetallic Connector stands as an innovative and distinct electrical industry product, crafted to exacting standards for long-lasting performance. This connector offers a reliable and robust solution for electrical connections, particularly suited to endure harsh environmental conditions. Beyond being cost-effective, it's known for its safety, efficiency, and durability. This article delves into the various features of the GTL Type Bimetallic Connector and its global merchant benefits.
Features:
High Conductivity: Crafted from high-quality copper and aluminum alloys, this connector assures excellent conductivity, minimizing voltage drops in crucial applications.
Corrosion-Resistant: Designed to resist corrosion, this connector withstands harsh environmental conditions while maintaining its effectiveness.
Low Thermal Conductivity: Its low thermal conductivity prevents easy heating, especially beneficial in environments where high temperatures are a concern.
Ease of Installation: Engineered for effortless installation, it arrives with clear instructions and requires no specialized tools, making it suitable for various electrical applications.
Durability: Built to endure, this connector utilizes high-quality materials to withstand extreme conditions, offering long-term reliability.
Benefits:
Cost-Effectiveness: With high conductivity and low voltage drop, it delivers value for money compared to other market offerings.
Safety: Rigorously tested to meet international safety standards, it holds certifications for use in numerous countries.
Efficiency: Its high conductivity promotes efficiency in electrical connections, potentially saving energy and reducing long-term costs.
Versatility: Ideal for power distribution, light railway systems, and various electrical applications due to its versatility.
Conclusion:
The GTL Type Bimetallic Connector stands as an innovative, cost-effective, and dependable solution for electrical connections. Offering high conductivity, corrosion resistance, low thermal conductivity, and easy installation, it ensures reliability across a spectrum of applications. Its versatility makes it an appealing choice for global merchants seeking a lasting solution for electrical connections.
Description:
QLG reducing links serve as high-quality terminations between aluminum and copper cables. Manufactured from High Conductivity aluminum and copper, they eliminate oxygen presence and electrolytic corrosion.
Advantages:
Clear markings of conductor and crimp die sizes
Pre-filled with jointing compound
Materials:
High Conductivity Aluminium (99.6% purity)
High Conductivity Copper (99.95% purity)
Friction Welding of Copper to Aluminium
Operating Temperature
-40°C to 110°C
-40°F to 230°F
Inspection & Testing
Visual inspection
Physical measurement
Weight measurement
Conductor fit
Heat cycling test
Mechanical pulling test
The GTL Type Bimetallic Connector stands as an innovative and distinct electrical industry product, crafted to exacting standards for long-lasting performance. This connector offers a reliable and robust solution for electrical connections, particularly suited to endure harsh environmental conditions. Beyond being cost-effective, it's known for its safety, efficiency, and durability. This article delves into the various features of the GTL Type Bimetallic Connector and its global merchant benefits.
Features:
High Conductivity: Crafted from high-quality copper and aluminum alloys, this connector assures excellent conductivity, minimizing voltage drops in crucial applications.
Corrosion-Resistant: Designed to resist corrosion, this connector withstands harsh environmental conditions while maintaining its effectiveness.
Low Thermal Conductivity: Its low thermal conductivity prevents easy heating, especially beneficial in environments where high temperatures are a concern.
Ease of Installation: Engineered for effortless installation, it arrives with clear instructions and requires no specialized tools, making it suitable for various electrical applications.
Durability: Built to endure, this connector utilizes high-quality materials to withstand extreme conditions, offering long-term reliability.
Benefits:
Cost-Effectiveness: With high conductivity and low voltage drop, it delivers value for money compared to other market offerings.
Safety: Rigorously tested to meet international safety standards, it holds certifications for use in numerous countries.
Efficiency: Its high conductivity promotes efficiency in electrical connections, potentially saving energy and reducing long-term costs.
Versatility: Ideal for power distribution, light railway systems, and various electrical applications due to its versatility.
Conclusion:
The GTL Type Bimetallic Connector stands as an innovative, cost-effective, and dependable solution for electrical connections. Offering high conductivity, corrosion resistance, low thermal conductivity, and easy installation, it ensures reliability across a spectrum of applications. Its versatility makes it an appealing choice for global merchants seeking a lasting solution for electrical connections.
Description:
QLG reducing links serve as high-quality terminations between aluminum and copper cables. Manufactured from High Conductivity aluminum and copper, they eliminate oxygen presence and electrolytic corrosion.
Advantages:
Clear markings of conductor and crimp die sizes
Pre-filled with jointing compound
Materials:
High Conductivity Aluminium (99.6% purity)
High Conductivity Copper (99.95% purity)
Friction Welding of Copper to Aluminium
Operating Temperature
-40°C to 110°C
-40°F to 230°F
Inspection & Testing
Visual inspection
Physical measurement
Weight measurement
Conductor fit
Heat cycling test
Mechanical pulling test
