8017 8030 8076 8130 8176 8177 aluminum alloy wire rod has strong creep resistance, good fatigue resistance, not easy to break, stable resistance at high temperature, and higher elongation after annealing, which ensures the safety of the conductor in service, which are widely used in aluminum alloy overhead conductors and other wire and cable fields.
Why choose Chalco Aluminum's 8017 8030 8076 8130 8176 8177 aluminum alloy wire rod?
Quality could full meet ASTM B 800-05-2011 standard. Through effective solid solution and aging treatment and annealing treatment, the microstructure of the aluminum alloy wire can be improved, the internal stress can be reduced, and then its performance can be improved to ensure a stable wire quality.
Continuously improving and optimizing the continuous casting and rolling production line, the motor-driven high-speed aluminum alloy drawing machine, the roll forming single-strand production line and the frame-type stranding machine and other equipment production lines provide equipment for the production and manufacture of high-quality aluminum alloy conductors The foundation creates favorable conditions for optimized process implementation.
Specs of 8017 8030 8076 8130 8176 8177 aluminum alloy wire rod
Alloy | 8017 8030 8076 8130 8176 8177 |
Temper | Hard, Soft |
Length | Coil |
Standard | ASTM B 800-05-2011, GB/T30552-2014 |
Chemical composition of 8017 8030 8076 8130 8176 8177
Chemical composition (%) | ||||||
8017 | 8030 | 8076 | 8130 | 8176 | 8177 | |
Si | 0.10 | 0.10 | 0.10 | 0.15 | 0.03-0.15 | 0.10 |
Fe | 0.55-0.80 | 0.30-0.80 | 0.60-0.90 | 0.40-1.00 | 0.40-1.00 | 0.25-0.45 |
Cu | 0.10-0.20 | 0.15-0.30 | 0.04 | 0.05-0.15 | -- | 0.04 |
Mg | 0.01-0.05 | 0.05 | 0.08-0.22 | - | - | 0.04-0.12 |
Zn | 0.05 | 0.05 | 0.05 | 0.10 | 0.10 | 0.05 |
B | 0.04 | 0.001-0.04 | 0.04 | - | - | 0.04 |
Others | 0.03 | 0.03 | 0.03 | 0.03 | 0.05 | 0.03 |
Al | Rest | Rest | Rest | Rest | Rest | Rest |
Property of 8017 8030 8076 8130 8176 8177 aluminum alloy wire rod
Standard | Temper | Tension Strength /(N/mm2) | Elongation /% A | 20℃Resistivity/ (Ω·m) |
Not less than | ||||
GB/T 30552-2014 | Soft temper | 98-159 | ≥10 | ≤2.8264×10-8(≥61%IACS) |
Hard temper | ≥185 | ≥1.0 | ≤2.8264×10-8(≥59.5%IACS) | |
ASTM B800-05-2011 | Soft temper | 59-111 | ≥10 | ≤2.8264×10-8(≥61%IACS) |
Hard temper | 103-152 | ≥1.0 | ≤2.8264×10-8(≥61%IACS) |
Deviation of 8017 8030 8076 8130 8176 8177 aluminum alloy wire rod
Diameter d/mm | Allowable deviation /mm |
0.300-0.900 | ±0.013 |
0.900-2.500 | ±0.025 |
2.500-5.000 | ±1%d |
Features of 8017 8030 8076 8130 8176 8177 aluminum alloy wire rod
8017, 8030, 8076, 8130, 8176, and 8177, generally used in power transmission and distribution systems. The following are some characteristics of 8000 series alloy rods.
Lightweight: 8000 series aluminum alloy conductors are lighter than traditional copper conductors, which makes them easier to handle and install. This saves costs during shipping and installation.
Good electrical conductivity: although the electrical conductivity of aluminum is lower than that of copper, Aluminum alloy wire and rod have better electrical conductivity than pure aluminum. These alloys have been specially designed to increase electrical conductivity for efficient transmission of electricity.
High strength: alloy wire rods have high strength and mechanical properties and are suitable for overhead transmission lines and other applications that need to withstand tension and other stresses.
Corrosion resistance: alloy wire rods have good corrosion resistance, which is important to ensure long-term reliability in outdoor environments. Alloy compositions and surface treatments help protect conductors from moisture, chemicals, and other corrosive elements.
Cost effective: alloy wire rods are generally less expensive than copper conductors. Lower material costs combined with lighter weight can lead to overall cost savings on large-scale electrical projects.
Capacity: alloy wire rods conductors generally have a higher capacity (capacity to carry current) than conventional aluminum conductors. This means they can carry more current without overheating, enabling efficient power transfer.
Uses of 8017 8030 8076 8130 8176 8177 aluminum alloy wire rod
8017, 8030, 8076, 8130, 8176, and 8177 are several common aluminum alloy conductor types that have a wide range of applications in power transmission and distribution systems. Here are some common uses for these aluminum alloy wire rod.
Overhead transmission lines: aluminum wire rod conductors are often used in high-voltage transmission lines, such as crossing lines between power transmission towers and utility poles. They are capable of withstanding power transmission over long distances and provide reliable power delivery in outdoor environments.
Distribution lines: aluminum alloy conductors are also used in medium and low voltage distribution lines, including power supply in urban and rural areas. They can be used to deliver electricity from substations to various uses terminals such as homes, factories and commercial buildings.
Underground cables: aluminum alloy wire rod conductors are also used in power cable systems buried underground. These cables can be used in cities, buildings, and industrial locations where wires need to be hidden.
Electrical engineering: aluminum alloy wire rod conductors are used in various electrical engineering projects such as factories, mines, power facilities and transportation systems. They are used as conductors and connecting wires in equipment such as electric motors, transformers, generators, and power meters.
Metallurgical and chemical industry: aluminum alloy wire rod conductors are often used in metallurgical and chemical industry fields, such as power supply for aluminum furnaces and electrolytic cells.
Precautions for buying 8017 8030 8076 8130 8176 8177 aluminum alloy wire rod
Specifications and requirements: make sure you have a clear understanding of your project requirements, including wire cross-sectional area, wire length and quantity, etc. These specifications will affect wire selection and price.
Standards and certifications: aluminum alloy wire rod conductors should comply with international, regional or industry standards and specifications, such as ASTM, IEC or national standards. Make sure the wire you purchase meets the applicable certification requirements to ensure its quality and performance.
Supplier reputation: choose reputable suppliers or resellers for purchases. They should have a good reputation and experience, be able to provide high quality aluminum alloy conductors, and be able to meet your needs.
Technical support: make sure that suppliers can provide necessary technical support and consulting services. They should be able to answer your questions about wire performance, installation and maintenance, and provide necessary technical documentation and specification information.
Price comparison: compare prices and quotes between different suppliers. Also, take care to ensure that the price offered matches the quality and specification of the wire being purchased.
Shipping and packaging: aluminum alloy wire rod conductors are usually long and may require special packaging and shipping. Negotiate with suppliers to ensure conductors can be transported to their destination in a safe and efficient manner.
After-sales service: understand the supplier's after-sales service policy, including returns, repairs, and warranties. Make sure you get the necessary support and service after your purchase.
Before purchasing aluminum alloy wire rod conductors, fully communicate and understand with suppliers to ensure that the products you choose meet your needs and expectations, and can provide reliable power transmission and distribution.