Product Description
CNC machined oxygen-free copper optical equipment parts are meticulously crafted to meet the highest standards of precision and performance.
The oxygen-free copper material used in our parts boasts excellent electrical conductivity, minimizing signal loss and maximizing transmission efficiency. This feature is essential for maintaining signal integrity in optical systems, leading to superior performance and reduced signal degradation.
They undergo meticulous polishing and finishing processes to achieve exceptional optical clarity. This ensures minimal light dispersion and optimal transmission, enabling precise and accurate optical measurements and imaging.
They find applications in various fields, including telecommunications, medical imaging, scientific research, and industrial inspection. They are versatile components that contribute to the success of diverse optical systems.
Our Capabilities
Our company is a precision CNC machining factory that has been in business for 18 years, since 2005. With over 40 CNC machines, we have the capability to machine more than 90 types of metals and plastics and can offer 30 types of surface treatments. Our machining tolerances can reach as low as +/- 0.0004 inches (0.01mm), making our operations highly efficient and precise. We offer additional services such as electric discharge wire cutting, gun drilling, grinding, tube and rod bending, and more. Our expertise and experience in precision CNC machining, coupled with our extensive range of capabilities, make us a reliable and trusted partner for all our customer's manufacturing needs.
Product Feature
Oxygen-Free Copper (OFC) is a high-purity copper alloy with exceptional properties that make it highly desirable for various applications.
1. Purity:
Oxygen-Free Copper has a minimum copper content of 99.95%, which ensures its high purity. The absence of oxygen impurities is a significant distinguishing factor of OFC.
2. Electrical Conductivity:
Oxygen-Free Copper exhibits excellent electrical conductivity, with a minimum conductivity rating of 101% IACS (International Annealed Copper Standard). This high conductivity allows for efficient electrical transmission and minimal power loss.
3. Thermal Conductivity:
The thermal conductivity of Oxygen-Free Copper is also noteworthy, with a typical value of approximately 385 W/m·K. This property enables efficient heat dissipation, making OFC suitable for applications that require excellent thermal management.
4. Tensile Strength:
Oxygen-Free Copper possesses a considerable tensile strength, typically ranging from 210 MPa to 275 MPa. This strength allows for the fabrication of durable and reliable components.
5. Elongation:
The elongation of Oxygen-Free Copper is an indication of its ductility. OFC typically exhibits an elongation value of 35% to 50%, implying its ability to withstand deformation without fracture.
6. Corrosion Resistance:
Oxygen-Free Copper demonstrates excellent resistance to corrosion. It is less prone to oxidation and tarnishing compared to other copper alloys. This property ensures the longevity and reliability of OFC components, even in harsh environments.
Advantages of Oxygen-Free Copper:
1. High Electrical Conductivity:
OFC's exceptional electrical conductivity enables efficient power transmission and reduces energy losses, making it ideal for electrical and electronic applications.
2. Excellent Thermal Conductivity:
The high thermal conductivity of OFC facilitates effective heat dissipation, ensuring the longevity and reliability of components in heat-sensitive applications.
3. Superior Corrosion Resistance:
Oxygen-Free Copper's resistance to corrosion minimizes the risk of degradation and ensures the long-term performance of components, even in corrosive environments.
4. Ductility and Formability:
OFC's ductility and formability allow for easy fabrication and shaping of components, making it suitable for intricate designs and complex manufacturing processes.
Disadvantages of Oxygen-Free Copper:
1. Cost:
The high purity and exceptional properties of Oxygen-Free Copper contribute to its higher cost compared to standard copper alloys. This cost factor may limit its use in certain applications with budget constraints.
2. Limited Availability:
Oxygen-Free Copper may have limited availability compared to other copper alloys. This scarcity can sometimes pose challenges in sourcing and procurement.
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Application
1. Medical Imaging:
Medical imaging technologies, such as MRI (Magnetic Resonance Imaging) and CT (Computed Tomography), heavily rely on precise optical systems. CNC machined oxygen-free copper optical equipment parts contribute to the construction of high-quality lenses, mirrors, and optical components, ensuring accurate imaging, detailed diagnostics, and improved patient care.
2. Electronics and Electrical Industry:
They are widely employed in the electronics and electrical industry. They are used in circuit boards, connectors, terminals, and electrical contacts. These parts ensure efficient electrical conductivity, minimal signal loss, and reliable power transmission, making them essential for high-performance electronic devices, power distribution systems, and electrical equipment.
3. Automotive and Transportation:
In the automotive and transportation sector, they are utilized in various applications. They are employed in electrical wiring systems, connectors, and terminals, ensuring reliable electrical connections and efficient power distribution. These parts contribute to the overall performance, safety, and durability of vehicles, including cars, trucks, trains, and aircraft.
4. Renewable Energy:
They play a vital role in the renewable energy industry. They are used in solar panels, wind turbines, and energy storage systems. These parts facilitate efficient energy conversion, reliable power transmission, and optimal performance of renewable energy systems, contributing to the generation of clean and sustainable power.
5. Aerospace and Defense:
The aerospace and defense industries rely on them for critical applications. These parts are utilized in aircraft electrical systems, avionics, radar systems, and communication devices. Their high conductivity, corrosion resistance, and durability make them suitable for demanding environments and ensure reliable performance in aerospace and defense applications.
6. Medical Equipment:
They find applications in the medical equipment industry. They are used in medical devices, such as diagnostic equipment, imaging systems, surgical instruments, and patient monitoring devices. These parts ensure precise electrical connections, reliable data transmission, and high-quality imaging, contributing to accurate diagnostics, effective treatments, and improved patient care.
7. Industrial Machinery:
In industrial machinery and equipment, they are employed in various applications. They are used in motors, transformers, generators, and control systems. These parts enable efficient power transmission, reduce energy losses, and ensure reliable operation of industrial machinery, enhancing productivity and performance.
8. Telecommunications:
They play a crucial role in telecommunications infrastructure. They are used in high-speed data transmission systems, fiber optic networks, and communication devices. These parts provide reliable signal transmission, low signal loss, and high data transfer rates, supporting seamless communication and connectivity.
9. Research and Development:
Research and development laboratories across industries benefit from the use of CNC machined oxygen-free copper optical equipment parts. These parts are utilized in custom equipment, prototypes, and experimental setups. They enable precise measurements, accurate data collection, and reliable performance, supporting advancements in various scientific and technological fields.
Product process
Packaging and shipping
FAQ
Q: Are you a trading company or manufacturer?
A: We are a manufacturer.
Q: When was your company founded?
A: Our company was founded in 2005.
Q: How long can you reply after getting RFQ?
A: Within 24 hours.
Q: Can you provide a sample? Is it free or extra?
A: Yes, We can. Just need some sample costs.
Q: Can you sign NDA (Non-disclosure agreement)?
A: Yes, We can.
Q: Deliver time of mass production?
A: Usually 25-35 days, it depends.