قطع وتشكيل ركيزة النحاس

Copper Substrate Cutting and Forming – Precision Laser Processing for High-Conductivity Electronics

Copper Substrate Cutting and Forming is a high-precision laser machining process designed to create intricate components from copper substrates for medical and electronic applications. Utilizing advanced fiber laser technology with nitrogen assist, this process delivers clean, burr-free cuts and precise forming with minimal thermal distortion. Crafted from high-quality copper, known for its superior electrical and thermal conductivity, the resulting components are ideal for medical sensors, electronic circuits, and high-performance interconnects. The laser-cut design ensures smooth edges and complex patterns, optimizing performance in demanding environments. Tailored for high-precision applications, this process meets the rigorous standards of modern healthcare and electronics manufacturing.

الميزات الرئيسية:

Ultra-Precise Cutting: Seam width of 15–30 µm with machining accuracy of ≤±10 µm for intricate circuit designs.
Burr-Free Edges: Smooth surfaces ensure reliable performance and safe integration in sensitive applications.
High Conductivity: Copper substrates provide excellent electrical and thermal conductivity for high-performance electronics.
Minimal Thermal Impact: Fiber laser with nitrogen assist minimizes oxidation and thermal distortion for enhanced material integrity.
تنوع المواد: Compatible with copper foils and copper-clad laminates for diverse applications.
Automated Production: Direct-drive XY motion platform ensures high efficiency and consistent quality.

Certification and Standards:

Certified under ISO 9001 and IATF 16949 for quality management. Compliant with CE and FDA regulations for medical device safety and efficacy.

مواد

Aluminum Substrate:

Excellent Thermal Conductivity: Efficiently dissipates heat, ideal for high-power electronics like LED lighting and medical imaging devices.
Lightweight: Reduces overall device weight, enhancing portability for applications in wearables and compact electronics.
Cost-Effective: Offers a balance of performance and affordability, suitable for large-scale electronics manufacturing.
Corrosion Resistance: Resists environmental degradation, ensuring durability in harsh conditions.
Mechanical Strength: Provides robust support for circuit components, maintaining structural integrity under stress.
Recyclability: Environmentally friendly, supporting sustainable manufacturing practices.

Copper Substrate:

Superior Electrical Conductivity: Ensures efficient signal transmission, critical for high-frequency 5G antennas and power electronics.
High Thermal Conductivity: Effectively manages heat dissipation, ideal for high-performance PCBs and medical devices.
Ductility: Allows precise forming and shaping, enabling intricate designs for compact electronic assemblies.
Durability: Resists wear and tear, providing long-term reliability in demanding applications.
Solderability: Facilitates strong, reliable connections in circuit assembly, enhancing manufacturing efficiency.
High-Density Interconnect Support: Enables complex, high-density circuit designs for advanced electronics.

Ceramic Substrate:

Exceptional Thermal Stability: Withstands extreme temperatures, ideal for high-power and high-frequency electronics like RF modules.
Superior Electrical Insulation: Prevents unwanted conductivity, ensuring reliable performance in sensitive medical and telecom devices.
High Mechanical Strength: Maintains structural integrity under stress, supporting precision manufacturing of complex designs.
Chemical Inertness: Resists corrosion from chemicals and environmental factors, ensuring long-term reliability.
Low Dielectric Loss: Enhances signal integrity, making it perfect for high-frequency applications like 5G and radar systems.
Biocompatibility: Suitable for medical implants and diagnostic equipment due to its non-reactive properties.

طلب

Medical Sensors: Produces precision components for wearable and diagnostic medical devices.
Electronic Circuits: Creates intricate layouts for consumer electronics and high-density interconnects.
Diagnostic Equipment: Supports high-precision substrates for imaging and laboratory devices.
Industrial Electronics: Used in robust components for control systems and power electronics.
Medical Device Manufacturing: Incorporated in the production of advanced electronic substrates.

تحديد

Material: Copper Foil, Copper-clad Laminates
Thickness: 0.05–0.5 mm
Cutting Seam Width: 15–30 µm
Machining Accuracy: ≤±10 µm
Surface Roughness: Ra <0.2 µm
Manufacturing Process: Fiber laser cutting with nitrogen assist and automated feeding
Operating Temperature: -20°C to 150°C, suitable for high-performance applications
Degradation: Non-degradable, designed for long-term stability