Radiator Fin Copper Strip

Name: Radiator Fin Copper Strip
Brand: Guangyuan
SKU: 245479114

A radiator fin copper strip is a specialized component designed primarily for use in heat exchangers and cooling systems, particularly in radiators. Radiators are essential in various applications, including automotive engines, HVAC systems, and industrial machinery, where they help in dissipating heat to maintain operational efficiency and prevent overheating.

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Why Choose Us

Our History
Heze Guangyuan Copper Strip Co. Ltd., established in 1985, is a professional and leading manufacturer of copper and brass strip (foil) for heat-exchanger fin and tube in China, with min. thickness 0.03mm and max. width 500mm.

Our Factory
Heze Guangyuan has always insisted on the business belief of "Developing business with high quality and making honesty as business criterion" and has been honored national level "Abiding by Contract and Keeping Promise" enterprise.

Our Product
Main products for heat-exchanger: copper foil for fin C14420, C14415(CuSn0.15), with minimum thickness 0.035mm, brass foil for fin C2680, with minimum thickness 0.04mm, brass strip for tube C2200, C2600& GH65F(C2680), brass strip for header plate and tank

Product Application
Copper foil for fin C14420, C14415(CuSn0.15), with minimum thickness 0.035mm, brass foil for fin C2680, with minimum thickness 0.04mm, brass strip for tube C2200, C2600& GH65F(C2680), brass strip for header plate and tank

Heat Exchanger Fin Copper Strip

This copper strip, with excellent heat-exchanging performance,high softening temperature and high electric conductivity, is mainly used for heat exchanger fins.

Copper strip refers to thin sheets or strips of copper that are used in various industrial, electrical, and electronic applications. It is a versatile and durable material that offers excellent thermal and electrical conductivity, corrosion resistance, and malleability.

C14415 Copper Strip

C14415 copper strip(EN：CuSn0.15), high performance copper alloy foil, has superior properties of high strength, high corrosion-resistance, high softening temperature.

Brass Strip For Tube

It is a superior material to make high quality radiator tube, with good corrosion-resistance performance in moist and high-temperature environment.

Heat Exchanger Fin Brass Strip

Brass Strip -H65, a copper-zinc alloy, is equivalent to C26800 in ASTM. This material is mainly used for heat exchanger fins.

Precision Brass Strip For Radiator Assembly

Precision brass strip for radiator assembly C2200 brass strip has extremely good plasticity and high strength, good machinability, easy welding, good mechanical properties and wear resistance, and can be used to manufacture precision instruments, ship parts, guns and cannons bullet casings etc..

Heat-Conductive Brass Strip For Radiator

Heat-conductive brass strip for radiator C2600 brass strip, a high precision brass strip, has high performance of conductivity, welding, processing and forming. It is suitable for seam tubulation and high frequency welding tubulation. It is a superior material to make high quality radiator tube,.

Durable Brass Strip For Radiator

GH65F, equivalent to CuZn35P in ISO, is a kind of brass strip with high strength, high-temperature conductivity, corrosion-proof, energy saving and environment-protection. It is specially used for radiator tube. The corrosion-proof performance of this material is superior to that of H70 (ISO.

Brass Strip For Efficient Radiator

B rass strip C2680(CuZn35)- Brass strip for efficient radiator Chemical Composition(Wt%) Mechanical Properties Physical Properties Sizes and Tolerances Brass strip is a popular material used for creating efficient radiators for a variety of applications. Radiators are essential components in...

Corrosion-Resistant Copper Strip For Heat Exchanger Fin

Corrosion-resistant copper strip for heat exchanger fin This copper strip, with excellent heat-exchanging performance,high softening temperature and high electric conductivity, is mainly used for radiator fins. Chemical Composition Mechanical Properties Physiacal Properties Sizes and Tolerances...

What is Radiator Fin Copper Strip

Advantage Of Radiator Fin Copper Strip Is Used In The New Energy Sector

High Conductivity: Copper has one of the highest conductivity levels of any metal, which means that it can transport electricity efficiently and with minimal energy loss. This makes it particularly useful in renewable energy systems, which rely on transmitting large amounts of power over long distances.

Durability: Copper is a highly durable material that is resistant to corrosion, rust, and other forms of wear and tear. This makes it ideal for use in harsh environments, such as offshore wind farms, where the equipment is exposed to saltwater and other corrosive elements.

Flexibility: Copper strip can be easily shaped and manipulated, making it an ideal material for use in wiring and other electrical applications. This flexibility also makes it easier to install and maintain, which can help to reduce costs and downtime.

Sustainability: Copper is a highly recyclable material that can be reused again and again without losing its properties. This makes it an eco-friendly choice for companies that are committed to reducing their environmental impact.

Versatility: Copper strip can be used for a wide range of applications within the new energy sector, including solar panels, wind turbines, electric vehicles, and battery storage systems. Its versatility means that companies can use this material in multiple ways across their operations, increasing efficiency and reducing costs.

Production Of Radiator Fin Copper Strip

Stage 1: Melting Down Copper
Today, copper is typically melted down in an electric furnace known as an induction furnace where they are better able to reach and monitor the required temperature for melting this ore; copper has a high melting point of 1083°C (1981°F). Induction furnaces are extremely pricey industrial equipment, but they do ensure a level of safety that is not present in foundries that are self-built. Typically, copper is melted down by itself but, occasionally, other materials such as zinc may be added to create a copper alloy.

Stage 2: Laboratory Test
Next, blocks from each batch of copper are sent to a laboratory where they are inspected to guarantee that specific customer requirements and product specifications are met.

Stage 3: Cutting
After each batch is approved, it is formed into a copper strip. The entire copper strip is then placed on a cutting table, and cut off using a cutting wheel saw. Then the copper strip's uneven surface is smoothed using a copper strip surface washing machine, which is advantageous for the copper strip's later-processed surface for smoothness and flatness.

Stage 4: Hot Rolling
Next, the copper strip is heated at a temperature of 1,000 °C (1,832 °F), and then rolled to ensure a uniform thickness and create a more workable material.

Stage 5: Washing With Water
There are still surface impurities after the hot rolling process is applied to each copper block. As a result, it is first subjected to the sealing furnace and then the washing procedure is undertaken in order to prevent the completed product's quality from being impacted. Then, the dark red areas are eliminated by a fine metal brush during washing and the middle red sections on the copper strip's surface are washed away by the acidity in the washing pool.

The copper strip clearly sparkles following this round of treatments. However, there are frequently still red plaques, so it is critical to repeat the washing stage. The washing pool's acidity is regularly checked during the washing process and acid is added as needed in order to prevent the acid level from being too low and causing insufficient washing.

Stage 6: Rolling The Plate
Finally, the copper strip is heat treated and forged inside a sealing furnace, then processed to go from a rough to a fine material of specified size.

Manufacturing And Applications Of Radiator Fin Copper Strip

Smelting: Copper ore is extracted from the ground and crushed into small pieces. The crushed ore is then melted in a furnace, and impurities are removed to obtain pure copper.

Refining: The pure copper obtained from smelting is further refined to remove any remaining impurities.

Casting: The refined copper is then cast into ingots or billets.

Rolling: The copper ingots or billets are then rolled into thin sheets or strips using a rolling mill.

Annealing: The rolled copper strips are annealed to improve their ductility and malleability. Annealing involves heating the copper strips to a high temperature and then cooling them slowly.

Copper strips have a wide range of applications in various industries, including:

Electrical Engineering: Copper strips are used in the manufacturing of electrical wires, transformers, and other electrical components due to their excellent electrical conductivity.

Roofing: Copper strips are commonly used in roofing due to their excellent corrosion resistance, durability, and aesthetic appeal.

Industrial and Manufacturing: Copper strips are used in various industrial and manufacturing applications, including heat exchangers, radiators, pipes, and fittings.

Plumbing: Copper strips are used in plumbing due to their corrosion resistance and ease of soldering. Copper pipes are commonly used for plumbing in homes and commercial buildings.

Renewable Energy: Copper strips are used in renewable energy applications such as solar panels and wind turbines due to their high thermal conductivity and excellent electrical conductivity.

Automotive Industry: Copper strips are used in various automotive components such as radiators, brake lines, and electrical wiring due to their excellent conductivity and durability.

Coinage: Copper strips are used in the manufacturing of coins due to their excellent electrical conductivity and resistance to corrosion.

Current Status And Development Trend Of Radiator Fin Copper Strip Supply And Demand

1. Current status of supply and demand

In the past ten years, due to the stable consumption of foreign copper plate and strip processing enterprises, the production capacity and consumption have tended to be balanced. The domestic demand for ordinary copper strips is basically stable, and the demand for high-precision special copper strips is growing rapidly, especially the rapid development of electric power, telecommunications, electronics industry, photovoltaic industry and automobile industry. Special products such as transformer copper strips The demand for high-precision purple brass plates and strips such as copper strips, cable strips, photovoltaic copper strips, copper materials for connectors, frame copper strips for leads, and water tank copper strips has grown rapidly. However, with the rapid development of small domestic copper processing enterprises in recent years, there is a relative surplus of low-tech copper processing products, and the production capacity of high-precision, high-performance, high-tech copper strips is insufficient. The alloy composition, surface finish, size and shape Copper strips with high precision and performance requirements mainly rely on imports.

2. Development trend

Copper processing technology is embodied in the preparation of copper and copper alloy materials, various production processes and production equipment used in copper processing products. Copper processing technology and its development trend are closely related to the improvement of production process and production parameters and the upgrading of production equipment. Its development trend and general characteristics are the pursuit of high efficiency, low energy consumption and automation under the premise of pursuing high performance and high quality.

The consumption of domestic copper strip products has surged, and the consumption status of small batches, multiple specifications, and multiple varieties has promoted the development of short-process domestic new production processes and equipment with moderate production capacity such as the introduction method and continuous extrusion method, and the short-process process production Multi-variety products will be the future development direction. The shortage of fine copper ore in domestic copper resources, the rational utilization of scrap copper and domestic recycling may have an impact on the production process and equipment of domestic copper strips.

Practical Tips For Using Radiator Fin Copper Strip

Surface Preparation

Ensure that the surface you intend to apply copper tape to is clean and free from dust or oils to maximize adhesion.

Precision Cutting

Use sharp scissors or a craft knife to cut copper tape with precision, especially for intricate designs or electronics projects.

Soldering

When using copper tape in electronics, soldering may be necessary to create secure electrical connections.

Maintenance

In outdoor applications like gardening, periodically check the copper tape for wear and tear, as exposure to the elements can affect its effectiveness.

Certifications

Our Factory

Heze Guangyuan Copper Strip Co. Ltd., established in 1985, is a professional and leading manufacturer of copper and brass strip (foil) for heat-exchanger fin and tube in China, with min. thickness 0.03mm and max. width 500mm.

FAQ

Q: What is a radiator fin copper strip?

A: A radiator fin copper strip is a specialized component used in heat exchangers and cooling systems. It is made primarily from copper due to its high thermal conductivity, allowing for efficient heat dissipation.

Q: Why is copper used in radiator fins?

A: Copper is chosen for its exceptional thermal conductivity, durability, malleability, and resistance to corrosion, making it ideal for transferring heat in harsh conditions.

Q: How does a radiator fin copper strip work?

A: The copper strips, attached to tubes where a coolant flows, absorb heat from the coolant. Air passing through the radiator then cools the copper strips, radiating heat away from the system.

Q: What are the design characteristics of radiator fin copper strips?

A: Radiator fin copper strips are designed to be thin and have a large surface area. They are often corrugated to enhance surface area without adding weight, improving heat transfer efficiency.

Q: How are radiator fin copper strips manufactured?

A: The manufacturing process involves rolling copper into thin sheets, cutting them to shape, and sometimes annealing to enhance mechanical properties.

Q: What are the applications of radiator fin copper strips?

A: Radiator fin copper strips are used in automotive radiators, HVAC systems, and industrial machinery cooling systems to maintain operational efficiency and prevent overheating.

Q: Can radiator fin copper strips be used in non-automotive applications?

A: Yes, they are used in various industrial cooling systems, air conditioning units, and heat exchangers in different industries.

Q: What is the importance of high purity in copper used for radiator fins?

A: High purity ensures that the copper has optimal thermal conductivity and minimal electrical resistance, enhancing heat dissipation and efficiency.

Q: How does the corrugated design of radiator fin copper strips benefit cooling efficiency?

A: The corrugated design increases the surface area exposed to air, improving heat transfer and cooling efficiency.

Q: Are there alternative materials to copper for radiator fins?

A: Yes, aluminum is often used as an alternative due to its lower cost and lighter weight, but copper is preferred for its superior thermal conductivity.

Q: What is the role of radiator fin copper strips in automotive cooling systems?

A: In automotive cooling systems, radiator fin copper strips transfer heat from the engine coolant to the air, maintaining engine temperature within safe operational limits.

Q: How do radiator fin copper strips contribute to environmental sustainability?

A: By improving cooling efficiency, they help reduce energy consumption and emissions, promoting environmental sustainability.

Q: What are the maintenance requirements for radiator fin copper strips?

A: Regular cleaning to remove debris and inspection for damage are necessary to ensure optimal performance.

Q: Can radiator fin copper strips be recycled?

A: Yes, copper is highly recyclable. Recycling radiator fins reduces the demand for virgin copper and conserves resources.

Q: How does the thickness of radiator fin copper strips affect their performance?

A: Thicker strips may reduce the overall surface area and heat transfer efficiency, while thinner strips may compromise structural integrity.

Q: What is the typical lifespan of radiator fin copper strips?

A: Lifespan varies depending on the application and maintenance, but copper's corrosion resistance contributes to longer service life compared to other materials.

Q: How do radiator fin copper strips impact the overall efficiency of a cooling system?

A: Efficient heat dissipation by radiator fin copper strips ensures that the cooling system operates at peak efficiency, preventing overheating and equipment failure.

Q: What is the role of radiator fin copper strips in industrial machinery?

A: In industrial machinery, radiator fin copper strips help in dissipating excess heat generated during operation, maintaining equipment at optimal operating temperatures.

Q: Can radiator fin copper strips be customized for specific applications?

A: Yes, manufacturers can customize the size, shape, and thickness of radiator fin copper strips to meet the specific requirements of various applications.

Q: What are the future trends in radiator fin copper strip technology?

A: Advancements in material science are leading to the development of copper alloys with improved thermal properties and reduced environmental impact.

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