Products Details
| Type | Broaching, Drilling, Etching / Chemical Machining, Laser Machining, Milling, Other Machining Services |
| Material Capabilities | Brass, Aluminum, Copper, Stainless Steel, Steel Alloys |
| CNC Machining or Not | CNC Machining |
| Micro Machining or Not | Not Micro Machining |
| Material Purity | High-purity copper ≥99.9%, optional copper alloys (Cu-Ni, Cu-Sn) |
| CNC Machining Tolerance | ±0.005mm precision, multi - axis milling for complex channel designs |
| Surface Finish Options | Polishing, nickel plating, anodizing; Ra 0.8-1.6μm for heat transfer |
| Thermal Conductivity | ≥401W/(m K) , optimized by internal micro-channel structures |
| Application Compatibility | High-end GPU, server CPU, 5G base stations, industrial power module |
| Customization Flexibility | CAD - driven design, micro - channels/grooves added via precision CNC |
| Pressure Resistance | Withstand up to 10 bar, suitable for liquid - cooled cooling systems |
| Thickness Customization | 1mm - 20mm thickness range, ultra - thin (≥1mm) for compact devices |
| Certification Compliance | ISO-9001,ISO-14001,ISO-45001, ISO-IATF 16949 |
| Lead Time for Samples | Sample: 5 - 7 days; Mass order: 2 - 3 weeks, rush service available |
| Selling Units | Single item |
| Package size per batch | 8X7X3 cm |
| Gross weight per batch | 0.800 kg |
+
FAQ
1. What is a Precision Copper VC Thermal Plate?
It is a high-performance thermal solution using copper for effective heat management.
2. How does the thermal plate improve device performance?
By dissipating heat efficiently, it enhances overall device reliability.
3. Is the thermal plate compatible with all systems?
Yes, it is designed for compatibility with various electronic devices.
4. What are the benefits of using copper in thermal plates?
Copper offers superior thermal conductivity, optimizing heat dissipation.
5. How does the design support compact spaces?
Its lightweight and compact design fits seamlessly into tight spaces.
6. Can the thermal plate be integrated into existing systems?
Yes, it is engineered for easy integration with current cooling setups.
7. Does it help in reducing overheating risks?
Absolutely, it significantly lowers the risk of overheating by improving heat management.
8. Is the thermal plate durable?
Yes, it is constructed for durability, ensuring long-term thermal efficiency.
