Advanced M.2 NVMe thermal management solutions designed to prevent thermal throttling and maximize SSD performance. Custom manufacturing for high-speed storage applications with cutting-edge passive cooling technology.
Temperature Reduction
Performance Boost
Modern NVMe SSDs generate significant heat during operation, leading to thermal throttling and reduced performance. Our heat sinks maintain optimal temperatures for sustained high-speed operation.
Prevents SSD speed reduction due to overheating, maintaining consistent read/write speeds even under heavy workloads.
Maximizes SSD performance potential by maintaining optimal operating temperatures for sustained high-speed data transfer.
Reduces thermal stress on NAND flash memory and controller chips, significantly extending SSD operational lifespan.
Comprehensive solutions for all M.2 NVMe SSD cooling requirements
Standard size heat sinks for most desktop and laptop M.2 SSDs. Available in aluminum and copper configurations with thermal pads included.
Premium heat sinks with integrated RGB lighting for gaming builds. Synchronized RGB effects with customizable color patterns.
Advanced cooling solution with copper heat pipes for maximum thermal dissipation. Ideal for high-performance gaming and workstation builds.
Cost-effective aluminum heat sinks for general purpose cooling. Lightweight design with efficient heat dissipation properties.
Premium copper heat sinks for maximum thermal conductivity. Perfect for high-end SSDs requiring superior cooling performance.
Specialized heat sinks for compact M.2 2230 SSDs used in handheld gaming devices and ultra-compact systems.
Precision engineering for optimal thermal performance
Our CNC machining process ensures precise fin spacing and optimal surface area for maximum heat dissipation. Every heat sink is manufactured to tight tolerances for consistent performance.
±0.05mm tolerance
Ra 1.6 μm
High-quality aluminum extrusion process creates complex fin geometries with excellent thermal properties. Our 6063 aluminum alloy provides optimal balance of thermal conductivity and weight.
200 W/mK
67% lighter than copper
Detailed specifications for our SSD heat sink solutions
Simple installation process for optimal thermal performance
Power down system and remove M.2 SSD from slot. Clean SSD surface if necessary.
Remove protective film and apply thermal pad to SSD controller and memory chips.
Carefully place heat sink on SSD, ensuring full contact with thermal pad.
Reinstall SSD in M.2 slot and verify temperature reduction using monitoring software.
Optimal cooling solutions for various computing environments
Prevent thermal throttling during intense gaming sessions and large game installations for consistent performance.
Compact heat sinks designed for space-constrained laptop environments without compromising cooling efficiency.
Professional-grade cooling for high-performance workstations and enterprise storage systems.
Enhanced cooling for desktop builds with multiple M.2 SSDs and high-performance computing requirements.
Maintain optimal SSD performance during video editing, 3D rendering, and large file transfers.
Scalable cooling solutions for enterprise SSDs in high-density server configurations.
Quantifiable improvements in SSD performance and longevity
Thermal throttling occurs, reducing speeds by 40-60%
Sustained peak performance, no throttling
Performance Increase
Lifespan Extension
Industry-leading quality standards and certifications
Quality management system certification
Environmentally safe materials
Every product undergoes rigorous testing
Comprehensive product warranty
Expert answers to common SSD heat sink questions
Yes, especially for high-performance SSDs and intensive workloads. Modern NVMe SSDs can reach temperatures of 70-85°C during heavy use, causing thermal throttling that reduces performance by 40-60%. A heat sink maintains optimal temperatures and prevents performance degradation.
Copper offers superior thermal conductivity (388 W/mK vs 200 W/mK for aluminum) but is heavier and more expensive. Aluminum provides excellent cooling for most applications while being lighter and more cost-effective. For extreme performance requirements, copper is recommended.
We offer ultra-thin heat sinks specifically designed for laptops and space-constrained systems. These low-profile designs typically add only 2-3mm thickness while providing effective cooling. Check your laptop’s clearance specifications before ordering.
Typical temperature reductions range from 15-25°C depending on the heat sink design, material, and system airflow. This reduction is sufficient to prevent thermal throttling and maintain sustained peak performance in most applications.
Yes, installation is straightforward and takes less than 5 minutes. We provide detailed instructions and all necessary thermal pads. No special tools are required – just remove the SSD, apply the thermal pad, attach the heat sink, and reinstall.
No, our RGB heat sinks maintain the same thermal performance as standard models. The LED components are integrated without compromising the thermal interface or heat dissipation capabilities.
Many motherboards include basic heat sinks for M.2 slots. While these provide some cooling, aftermarket heat sinks typically offer superior performance. You can replace motherboard heat sinks with our solutions for better thermal management.
High-quality thermal pads can last 5-7 years under normal operating conditions. They maintain their thermal conductivity and don’t require replacement unless the heat sink is removed multiple times.
No, installing a heat sink does not void SSD warranties. However, avoid removing factory labels or thermal pads from the SSD itself. Our heat sinks attach to the SSD without modifying the original component.
Yes, we offer double-sided heat sinks specifically designed for SSDs with memory chips on both sides. These provide thermal pads and cooling surfaces for both sides of the SSD.
These numbers indicate the SSD dimensions: 22mm width and length (80mm, 60mm, 42mm, 30mm respectively). Most desktop SSDs are 2280, while compact devices like Steam Deck use 2230. We manufacture heat sinks for all standard sizes.
Yes, we provide custom manufacturing services for OEMs and specialized applications. Our engineering team can develop heat sinks tailored to specific thermal requirements, form factors, and aesthetic preferences.
Use software like CrystalDiskInfo, HWiNFO, or your SSD manufacturer’s utility to monitor temperatures. Most modern SSDs report temperature through SMART data. Aim to keep temperatures below 70°C for optimal performance and longevity.
MOQ varies by design complexity and materials. For standard modifications, we start at 100 pieces. For completely custom designs, minimum quantities typically start at 500-1000 pieces. Contact our sales team for specific requirements.
Passive cooling (heat sinks only) works well for most applications and maintains silent operation. Active cooling (with fans) is recommended for extreme performance requirements, compact spaces with poor airflow, or sustained heavy workloads.
Professional CNC machining and custom parts manufacturing services, meeting your precision machining needs with rapid delivery of high-quality components.
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