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Our Server Thermal Plate Module is a superior Thermal Management Solution, specifically designed for servers, data centers, AI clusters, and high-density computing environments. By leveraging advanced vapor chamber and heat pipe technology, it ensures rapid heat dissipation from critical components like CPUs, GPUs, memory, and power delivery modules. This module is fundamental to maintaining system stability, preventing overheating, and extending hardware lifespan under continuous heavy workloads.
Uniform Heat Distribution: Effectively minimizes dangerous hotspots by ensuring an even temperature profile across the entire surface, reducing thermal stress on components.
Advanced Vapor Chamber/Heat Pipe Core: Provides ultra-fast thermal conduction with exceptionally low thermal resistance, leading to more efficient cooling performance compared to traditional solutions.
Ultra-thin, Lightweight Design: Enables seamless integration into space-constrained, high-density rack-mounted systems without compromising on cooling capacity.
Fully Customizable: Available in customizable sizes and interfaces to fit unique motherboard layouts, specific component groupings, and bespoke server designs.
High Reliability & Zero Maintenance: As a passive cooling component, it offers a long operational lifespan with no moving parts, ensuring consistent performance without maintenance needs.
Low Noise Operation: Supports passive or semi-passive cooling strategies, significantly reducing overall system acoustics for quieter data center environments.
Seamless Compatibility: Designed to be compatible with existing fan and heat sink systems, allowing for the creation of powerful hybrid cooling assemblies for maximum thermal efficiency.
Enterprise Servers and Data Center Racks
High-Performance Computing (HPC) and AI/ML Infrastructure
Cloud Computing and Storage Systems
Telecommunications and Network Equipment
The Server Thermal Plate Module is a foundational element in modern server thermal management. Its core functions are designed to enhance cooling efficiency, protect hardware, and ensure long-term reliability.
Efficient Thermal Spreading: The module's primary function is to rapidly transfer heat from concentrated sources (like CPU/GPU cores) to a wider surface area. This initial heat spreading is critical for the effectiveness of the entire cooling system.
Advanced Thermal Equalization: It actively reduces temperature fluctuations across components. This stability is crucial for increasing component longevity and ensuring consistent computational performance under variable loads.
Integrated Mechanical Protection: The plate acts as a rigid, protective layer between delicate processors and the larger heatsink, distributing mounting pressure evenly and safeguarding against physical damage.
Inherent Vibration & Impact Resistance: Built with a solid-state structure and robust materials, it is engineered to withstand the rigors of data center environments, including shipping, installation, and continuous operation.
This thermal plate is versatile and critical for a wide range of high-demand computing applications.
Data Center Servers: Essential for ensuring thermal balance in high-performance CPUs and GPUs within dense server racks.
Cloud Computing Equipment: Maintains stable operation for servers under constant, high computational loads from virtualization and multi-tenant services.
AI/ML & HPC Servers: Specifically supports the intense thermal output of high-performance chips from manufacturers like NVIDIA, AMD, and Intel, which are common in AI training and inference.
Blade & Rack Servers: The ultra-thin design is perfect for space-restricted form factors that still have heavy thermal demands.
Enterprise Storage Systems: Enhances the long-term reliability of thermal-sensitive components like memory modules and controllers in NAS and SAN systems.
Unlike a standard heat sink that only dissipates heat, our Thermal Plate uses vapor chamber or heat pipe technology to actively spread heat evenly across its surface first. This prevents localized hotspots and dramatically improves the overall efficiency of the attached cooling solution (heat sink or liquid cold plate).
Yes. It is designed as a universal thermal interface. It works seamlessly with both air cooling (fans and heatsinks) and liquid cooling systems (cold plates), making it a flexible solution for hybrid or full-liquid cooling loops.
Absolutely. We specialize in providing customizable thermal solutions. We can tailor the size, shape, and interface points to fit unique server chassis, motherboard layouts, and specific component groupings (e.g., multiple GPUs).
The module has an exceptional lifespan of over 50,000 hours. As a completely passive component with zero moving parts, it requires no maintenance, ensuring reliable, hands-off operation for years.
By efficiently transferring heat passively, it lowers the initial component temperature. This reduces the workload on Cooling Fans, allowing them to run at slower, quieter speeds, thereby significantly reducing overall server noise levels.
Installation is straightforward. It is placed directly between the heat source (CPU/GPU) and the cooling solution (heat sink or cold plate). For optimal performance, it is used with Thermal Interface Materials (TIMs). We offer modules with or without pre-applied TIM for your convenience.
Our Server Thermal Plate Module is a superior Thermal Management Solution, specifically designed for servers, data centers, AI clusters, and high-density computing environments. By leveraging advanced vapor chamber and heat pipe technology, it ensures rapid heat dissipation from critical components like CPUs, GPUs, memory, and power delivery modules. This module is fundamental to maintaining system stability, preventing overheating, and extending hardware lifespan under continuous heavy workloads.
Uniform Heat Distribution: Effectively minimizes dangerous hotspots by ensuring an even temperature profile across the entire surface, reducing thermal stress on components.
Advanced Vapor Chamber/Heat Pipe Core: Provides ultra-fast thermal conduction with exceptionally low thermal resistance, leading to more efficient cooling performance compared to traditional solutions.
Ultra-thin, Lightweight Design: Enables seamless integration into space-constrained, high-density rack-mounted systems without compromising on cooling capacity.
Fully Customizable: Available in customizable sizes and interfaces to fit unique motherboard layouts, specific component groupings, and bespoke server designs.
High Reliability & Zero Maintenance: As a passive cooling component, it offers a long operational lifespan with no moving parts, ensuring consistent performance without maintenance needs.
Low Noise Operation: Supports passive or semi-passive cooling strategies, significantly reducing overall system acoustics for quieter data center environments.
Seamless Compatibility: Designed to be compatible with existing fan and heat sink systems, allowing for the creation of powerful hybrid cooling assemblies for maximum thermal efficiency.
Enterprise Servers and Data Center Racks
High-Performance Computing (HPC) and AI/ML Infrastructure
Cloud Computing and Storage Systems
Telecommunications and Network Equipment
The Server Thermal Plate Module is a foundational element in modern server thermal management. Its core functions are designed to enhance cooling efficiency, protect hardware, and ensure long-term reliability.
Efficient Thermal Spreading: The module's primary function is to rapidly transfer heat from concentrated sources (like CPU/GPU cores) to a wider surface area. This initial heat spreading is critical for the effectiveness of the entire cooling system.
Advanced Thermal Equalization: It actively reduces temperature fluctuations across components. This stability is crucial for increasing component longevity and ensuring consistent computational performance under variable loads.
Integrated Mechanical Protection: The plate acts as a rigid, protective layer between delicate processors and the larger heatsink, distributing mounting pressure evenly and safeguarding against physical damage.
Inherent Vibration & Impact Resistance: Built with a solid-state structure and robust materials, it is engineered to withstand the rigors of data center environments, including shipping, installation, and continuous operation.
This thermal plate is versatile and critical for a wide range of high-demand computing applications.
Data Center Servers: Essential for ensuring thermal balance in high-performance CPUs and GPUs within dense server racks.
Cloud Computing Equipment: Maintains stable operation for servers under constant, high computational loads from virtualization and multi-tenant services.
AI/ML & HPC Servers: Specifically supports the intense thermal output of high-performance chips from manufacturers like NVIDIA, AMD, and Intel, which are common in AI training and inference.
Blade & Rack Servers: The ultra-thin design is perfect for space-restricted form factors that still have heavy thermal demands.
Enterprise Storage Systems: Enhances the long-term reliability of thermal-sensitive components like memory modules and controllers in NAS and SAN systems.
Unlike a standard heat sink that only dissipates heat, our Thermal Plate uses vapor chamber or heat pipe technology to actively spread heat evenly across its surface first. This prevents localized hotspots and dramatically improves the overall efficiency of the attached cooling solution (heat sink or liquid cold plate).
Yes. It is designed as a universal thermal interface. It works seamlessly with both air cooling (fans and heatsinks) and liquid cooling systems (cold plates), making it a flexible solution for hybrid or full-liquid cooling loops.
Absolutely. We specialize in providing customizable thermal solutions. We can tailor the size, shape, and interface points to fit unique server chassis, motherboard layouts, and specific component groupings (e.g., multiple GPUs).
The module has an exceptional lifespan of over 50,000 hours. As a completely passive component with zero moving parts, it requires no maintenance, ensuring reliable, hands-off operation for years.
By efficiently transferring heat passively, it lowers the initial component temperature. This reduces the workload on Cooling Fans, allowing them to run at slower, quieter speeds, thereby significantly reducing overall server noise levels.
Installation is straightforward. It is placed directly between the heat source (CPU/GPU) and the cooling solution (heat sink or cold plate). For optimal performance, it is used with Thermal Interface Materials (TIMs). We offer modules with or without pre-applied TIM for your convenience.
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