Product Description
Conductor Part
- Material Characteristics: High-purity aluminum is used as the conductor. Aluminum has good electrical conductivity, capable of effectively carrying current and ensuring the smooth transmission of electricity. Meanwhile, compared with some other common conductor metals (such as copper), aluminum is lightweight, which facilitates transportation, installation and laying, and can reduce construction costs and difficulties to a certain extent.
- Specification Options: It offers a variety of different cross-sectional area specifications for the wire core, which can meet the requirements of different power consumption scenarios ranging from low power to high power. Common specifications include [list specific specification ranges, for example, 16mm² - 400mm², etc.], allowing users to flexibly choose the appropriate specification according to the actual current-carrying capacity requirements.
Insulation Layer
- Insulation Material: High-quality [specific insulation material name, such as cross-linked polyethylene (XLPE) or polyvinyl chloride (PVC), etc.] is used as the insulation material. This material has excellent electrical insulation performance, can effectively block the current and prevent it from leaking out, ensuring electrical safety during use.
- Insulation Performance Parameters: The insulation resistance reaches above [specific value], and the withstand voltage is as high as [specific withstand voltage value]. It can work stably in complex electrical environments. Even under relatively harsh working conditions such as humidity and high temperature for a long time, it can still maintain good insulation effect, greatly reducing the risk of short-circuit faults.
Non-magnetic Armoring (if there is such a structural feature)
- Armoring Material and Advantages: It is equipped with a special non-magnetic armoring layer, usually made of [specific non-magnetic material, such as aluminum alloy tape, etc.] material. This armoring structure can not only provide reliable mechanical protection for the conductor and insulation layer inside the cable, protecting them from external mechanical forces (such as squeezing, impact, etc.), but also will not interfere with the surrounding electromagnetic environment. It is especially suitable for areas that are sensitive to magnetic fields, such as near some precision instruments and equipment or in specific communication sites.
- Armoring Protection Level: It has a relatively high protection level and meets the requirements of [corresponding protection standard, such as IPXX, etc.] standards, further improving the overall durability of the cable and its ability to adapt to complex environments.
Sheath Part
- Sheath Material and Function: The outer layer of the cable is wrapped with a solid and tough sheath, which is made of [specific sheath material, such as polyvinyl chloride (PVC) or polyethylene (PE), etc.]. Its function is not only to provide secondary protection for the internal structure, preventing external factors such as moisture, chemicals and ultraviolet rays from eroding the cable, but also has a certain degree of flame retardancy (if it has flame retardant characteristics, the specific flame retardant grade can be specified, for example, reaching the UL94-V0 grade, etc.). In the event of an accidental fire source, it can delay the spread of the fire and ensure the safety of the surrounding environment.
- Appearance and Marking: The surface of the sheath is smooth and flat, with uniform color. At the same time, important identification information such as the cable's specifications, models and manufacturers is clearly printed on it, facilitating users' identification and usage management.
Application Scenarios
- Industrial Field: It can be used for power supply to various power equipment in factory workshops, such as large motors, machine tools, etc., meeting the requirements for high-intensity and long-term power transmission and providing a powerful guarantee for the stable operation of industrial production.
- Electrical Engineering: It performs excellently in power transmission links between substations and distribution rooms, as well as in the conversion between overhead lines and underground cables, helping to build a safe and reliable power network.
- Civil Buildings: It is suitable for power supply systems in residential communities, commercial buildings and other places. Whether it is indoor wiring or connecting outdoor distribution boxes, it can ensure the stability and safety of power supply with its excellent performance.
Summary of Product Advantages
- High Cost-performance Ratio: Combining the low cost of the aluminum conductor and the overall reliable and durable performance characteristics, the single-core aluminum cable has an excellent cost-performance ratio while ensuring the quality of power transmission, making it an ideal choice for many engineering projects.
- Convenient Installation: The lighter weight and reasonable structural design make the cable easier to install and lay during the construction process, which can effectively shorten the construction period and reduce the input of manpower and material resources.
- Safe and Reliable: From the conductor to the insulation layer, and then to the armoring and sheath, each part works together to comprehensively ensure the safe and stable operation of the cable in different environments, reducing the risks of power outages and safety accidents caused by cable failures.
Product Parameters
1. Conductor
- Material: Aluminum
- Cross-sectional Area: Available in multiple specifications, such as 10mm², 16mm², 25mm², 35mm², 50mm², 70mm², 95mm², etc. (Customized sizes can also be provided according to specific requirements.)
- Conductor Resistance: Meets relevant national and international standards. For example, the resistance value of a [specific cross-sectional area] conductor at [a certain temperature] is within [specific resistance range] ohms per kilometer.
2. Insulation Layer
- Insulation Material: Commonly uses cross-linked polyethylene (XLPE) or polyvinyl chloride (PVC).
- Insulation Thickness: Varies depending on the cable's rated voltage and application scenarios. Generally, for a cable with a rated voltage of [rated voltage value], the insulation thickness is about [specific thickness value] mm.
- Dielectric Strength: Can withstand a breakdown voltage of not less than [specific voltage value] volts per millimeter under standard test conditions, ensuring reliable electrical insulation performance.
3. Sheath
- Sheath Material: Usually polyvinyl chloride (PVC) or polyethylene (PE).
- Sheath Thickness: Typically ranges from [minimum thickness value] mm to [maximum thickness value] mm, depending on the cable diameter and usage environment, to provide sufficient protection for the internal structure of the cable.
- Flame Retardant Performance (if applicable): Meets certain flame retardant standards, such as achieving a UL94-V0 or equivalent flame retardant grade, effectively reducing the risk of fire spread in case of emergencies.
4. Rated Voltage
The cable is designed to operate under different rated voltage levels, including 0.6/1kV, 1.8/3kV, 3.6/6kV, 6/10kV, etc., which can be selected according to the actual power transmission requirements of the project.
5. Maximum Operating Temperature
The maximum allowable continuous operating temperature of the cable varies depending on the insulation material used. For XLPE-insulated cables, it can generally reach up to [specific temperature value] °C, while for PVC-insulated cables, it is usually around [another specific temperature value] °C.
6. Bending Radius
During installation and use, the cable has a minimum bending radius requirement. For example, the minimum bending radius under normal conditions is typically [multiple, such as 6 times or 10 times] the outer diameter of the cable to ensure that the cable structure is not damaged during bending operations.
7. Cable Length
Available in standard lengths, commonly 100 meters per roll, but can also be customized according to customer needs for specific projects, with a maximum continuous production length that can reach [specific length value] meters under certain manufacturing conditions.
These product parameters are general descriptions, and specific parameter values may vary slightly depending on different manufacturers and actual product designs.
Our Advantages
Before making cables, the selection of copper materials is of utmost importance. The copper materials we choose are all 99.99% oxygen-free copper rods.
Before production, conduct a circular inspection of the equipment to ensure that the probability of problems occurring at the production end is 0%.
Professional production equipment and strict requirements for product quality are our lifelines.
Conduct self-inspection during production, spot check by batch, and conduct ex-factory inspection after leaving the factory. Conduct product production supervision in strict accordance with steps that far exceed the ISO 9001 quality control standard.
Ultra-large-scale inventory is also one of our advantages
Not only do we have cables and wires. We are a group company. Under the company, there is a power design institute, a power installation company, a production plant for power distribution boxes and cabinets, a production plant for cable trays and cable accessories, and a production plant for cable conduits. We can provide integrated services from design and research to products and then to construction. If you have any power-related issues, we welcome you to discuss with us. We will do our best to provide a solution. And these services are permanently free of charge!!!
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