Special Purpose Water Cooling Plate Liquid Thermal Management Solution

Special-purpose water cooling plates (special liquid cooling plates) are high-efficiency liquid cooling heat dissipation devices customized for extreme working conditions, ultra-high heat flux, stringent space constraints, or high-reliability requirements. Their core purpose is to break through the performance limits of conventional water cooling plates and solve bottleneck thermal management problems that cannot be met by ordinary heat dissipation solutions.

• Nature: Metal baseplates (aluminum/copper/alloy) with integrated precision internal flow channels, enabling forced heat exchange via circulating coolant
• Special Characteristics: Non-standardized, highly customized, focusing on five key dimensions: high heat flux, high precision, high reliability, extreme environments, and special-shaped structures
• Core Indicators: Thermal resistance ≤ 0.05℃/W, pressure resistance ≥ 8bar, temperature difference ≤ ±3℃, suitable for heat flux at 100~1000W/cm² level

• Structure: Embedded micron-scale flow channel network of 0.05~1mm, with channel density up to hundreds per cm²
• Advantages: Thermal resistance as low as 0.015℃/W, heat dissipation efficiency 3~5 times that of traditional designs
• Process: Photolithography etching, precision brazing, 3D printing
• Applications: AI chips (GPU/TPU), laser devices, SiC power modules

• Structure: Conformal curved surfaces, integrated multi-hole design, dual function as structural component and heat sink
• Process: Friction Stir Welding (FSW), die-casting, CNC milling
• Advantages: No splicing, excellent airtightness, lightweight
• Applications: Power battery packs, motor housings, aerospace avionics

• Characteristics: High/low temperature resistance (-55℃~250℃), salt spray resistance (1000h+), vibration resistance (5~500Hz/5Grms)
• Materials: Titanium alloy, stainless steel, anti-corrosion coating
• Applications: Shipboard electronics, radar, metallurgical equipment, polar scientific research devices

• Technology: Coolant doped with nanoparticles (Cu/Al₂O₃) or phase-change working fluid (fluorocarbon fluid)
• Performance: Thermal conductivity increased by 2~3 times, heat dissipation capacity doubled
• Applications: MRI, supercomputers, high-power lasers

• Structure: Fabric-embedded micro-flow channels, thin-film metal (thickness < 1mm)
• Characteristics: Bendable, ultra-thin, silent
• Applications: VR/AR headsets, medical implants, flexible screens

• Friction Stir Welding (FSW): Solder-free, high strength, excellent airtightness, suitable for large-size and high-pressure conditions
• Vacuum Brazing: Smooth flow channels, low thermal resistance, ideal for micro-channels and complex structures
• 3D Printing (SLM): Topologically optimized flow channels with 30% higher efficiency, used for customized aerospace parts
• Skiving / Etching: High-density fins for maximum heat exchange area, applied to AI chip cold plates

• AI & Supercomputing: Direct contact cooling for GPU training clusters, suppressing hot spots and ensuring full-frequency operation
• New Energy Vehicles: 800V electric drives, silicon carbide modules, flash-charging battery thermal management
• Medical Equipment: MRI gradient amplifiers, CT detectors, with temperature control accuracy of ±0.5℃
• Lasers & Optoelectronics: High-power fiber/semiconductor lasers, stabilizing wavelength and output power
• Aerospace & Defense: Radar, missile guidance systems, satellite payloads, featuring vibration resistance, radiation resistance and lightweight design
• Special Industry: Metallurgy, wind power converters, energy storage converters, dust and oil resistant