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CPU Cooler Spring Screws Specialist Precision Thermal Management Fasteners For Heat Sinks PC Hardware
Product Details:
| Place of Origin: | China |
| Brand Name: | Guanbiao |
| Certification: | ISO9001 |
| Model Number: | M3X15 |
Payment & Shipping Terms:
| Minimum Order Quantity: | 50000 |
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| Price: | USD0.08 |
| Packaging Details: | Plastic bag + carton |
| Delivery Time: | 15 work days |
| Payment Terms: | ,T/T |
| Supply Ability: | 500000 |
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Detail Information |
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| Material: | SWCH22A | Groove: | Phillips |
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| Size: | M3X15 | Surface Treatment: | Electroplated Nickel |
| Highlight: | PC Hardware Spring Screws,Heat Sinks Spring Screws,Precision Thermal Management Spring Screws |
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Product Description
Spring Screws Specialist Precision Thermal Management Fasteners For Heat Sinks & PC Hardware
1. Application Scenarios
Our high-performance spring screws are specifically engineered for thermal management systems, ensuring optimal heat dissipation in demanding computing environments:
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CPU/GPU Heat Sinks
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Securely mount cooling fins and heat pipes to processors, maintaining consistent contact pressure for efficient heat transfer.
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Critical for gaming PCs, workstations, and overclocking rigs where thermal throttling must be avoided.
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Server & Data Center Cooling
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Withstand 24/7 operation in server racks, preventing loosening due to vibration or thermal cycling.
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LED & Power Electronics Cooling
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Dissipate heat from high-power LEDs, VRMs, and industrial electronics, extending component lifespan.
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Automotive & Aerospace Electronics
Resistant to extreme temperatures (-40°C to 150°C) and mechanical stress in EVs/avionics systems.
2. Key Advantages
A. Precision Engineering
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Controlled Mounting Pressure: Optimized spring tension ensures even pressure distribution across CPU lids, eliminating hotspots.
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Vibration Resistance: Locking thread designs prevent loosening from fan oscillations or transport shocks.
B. Material Superiority
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Stainless Steel (SUS304/316): Corrosion-resistant for humid environments.
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Copper Alloy (CuCrZr): Enhances thermal conductivity at screw-contact points.
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Nickel/Black Oxide Coatings: Improve durability and EMI shielding.
C. Performance Validation
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10,000+ thermal cycles tested (85°C to -40°C) without torque loss.
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ROHS/REACH compliant for global electronics supply chains.
D. Customization Flexibility
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Adjustable spring rates and thread pitches (M2-M8) to match OEM heat sink designs.
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Color-coded screws for simplified assembly line workflows.
3. Future Trends & Innovations
A. Smart Thermal Management
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Integration with IoT-enabled heat sinks using screws with embedded sensors (e.g., pressure/temperature feedback).
B. Advanced Materials
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Graphene-coated screws: For ultra-high thermal conductivity in next-gen 5G/AI chipsets.
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Self-healing alloys: Auto-adjust tension under thermal expansion.
C. Sustainability
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Recyclable/biodegradable coatings to meet circular economy demands.
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Low-energy manufacturing (e.g., cold-forging) to reduce carbon footprint.
D. Miniaturization
- Micro-screws (<M2) for compact cooling solutions in foldable device
Conclusion
As CPUs/GPUs push thermal limits (e.g., 300W+ TDP in flagship GPUs), our spring screws evolve beyond fasteners into active thermal management components. By combining precision mechanics, material science, and smart technology, we enable cooler, quieter, and more reliable electronics for the AI/5G era.
Contact us to co-develop solutions for your cutting-edge cooling challenges.
s and micro-servers.