Advanced Vapor Chamber Cooling for Precision Devices

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  • Enhanced thermal management for high-performance devices
  • Compatible with a wide range of device architectures
  • Lightweight and space-efficient design for compact applications
  • Improves device longevity through effective heat dissipation
  • Customizable designs tailored for specific device needs
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    Products Details

    machinery test report
    Provided
    video outgoing-inspection
    Provided
    warranty
    1 Year
    application
    Heater Parts
    type
    Liquid Cold Plate
    weight (kg)
    5
    Product name
    water block
    Dimension(L*W*H)
    Up to 3.8*1.1 L*W
    Surface roughness
    1.2 um
    Surface flatness
    Below 0.005 cm/cm
    Main technique
    CNC machining
    Bonding technique
    Vacuum brazing
    Working pressure
    1.2 to 5 bars
    Fluid
    Water or suitable coolant
    Application
    Water cooling block for lasers, IGBT modules and EV power battery.
    Certification
    CE
    Selling Units
    Single item
    Single package size
    50X30X15 cm
    Single gross weight
    9.900 KG

    Our Manufacturing Base

    Factory Panorama

    Aluminum Bar Manufacturing Workshop

    Mold Storage Warehouse

    43 Aluminum Extrusion Lines (500–5500 Tons)

    Powder Coating Workshop

    Anodizing Workshop

    Deep Processing Workshop

    CNC Precision Machining Workshop

    Finished Product & Export Warehouse

    FAQ

    1. What devices are compatible with vapor chamber cooling?
    Vapor chamber cooling is compatible with a wide range of high-performance precision devices.

    2. How does vapor chamber cooling improve device performance?
    It enhances thermal management, ensuring optimal performance and longevity.

    3. Is advanced vapor chamber cooling suitable for compact devices?
    Yes, it is designed to be lightweight and space-efficient for compact applications.

    4. Can the vapor chamber design be customized?
    Yes, we offer customizable designs for specific device requirements.

    5. What is the primary benefit of using vapor chamber cooling?
    The primary benefit is its effective heat dissipation, improving device reliability.

    6. Does this cooling solution extend device lifespan?
    Yes, by managing heat efficiently, it extends the lifespan of precision devices.

    7. Is vapor chamber cooling easy to integrate with existing systems?
    Yes, it is compatible with existing device architectures, allowing for seamless integration.

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