Thermal Grizzly Conductonaut extreme 1g Liquid Metal
1 EGP
- Color: Silver
- Density: 6.29 g/cm³
- Electrically Insulating: No
- Operating Temperature: -50°C to +200°C
- Viscosity: 0.0021 Pa⋅s
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Thermal Grizzly Conductonaut extreme 1g Liquid Metal
Thermal Grizzly Conductonaut extreme 1g Liquid Metal SPECIFICATIONS:
- Color: Silver
- Density: 6.29 g/cm³
- Electrically Insulating: No
- Operating Temperature: -50°C to +200°C
- Viscosity: 0.0021 Pa⋅s
Overview
Conductonaut Extreme is a next-generation gallium-based liquid metal thermal compound designed for applications requiring maximum heat dissipation. As a metallic alloy that remains liquid at room temperature, it offers unparalleled thermal conductivity and minimal layer thickness compared to traditional thermal pastes. Developed in Germany to the highest quality standards, this product is ideal for high-performance systems where efficient heat transfer is critical.
Key Features
- Optimized Thermal Conductivity : Superior heat transfer compared to conventional liquid metals and thermal pastes.
- Material Compatibility : Enhanced compatibility with nickel-plated copper surfaces for long-term stability.
- Precision Application : Includes a metal needle for precise application and a plastic needle for cleanup.
- Package Options : Available in 1g or 5g syringes for various use cases.
- Electrically Conductive : Must be handled with care to avoid short circuits.
Technical Specifications
- Type : Gallium-based liquid metal alloy.
- Thermal Conductivity : Significantly higher than traditional pastes due to the absence of solid particles.
- Application Surface : Best suited for nickel-plated copper heatsinks for optimal long-term performance.
- Temperature Range : Recommended for use above 8°C .
Scope of Delivery
- 1x Syringe with liquid metal
- 1x Metal needle for application
- 1x Plastic needle for absorbing
- 2x Lint-free industrial cotton swabs
- 2x Cleaning pads
Why Choose Conductonaut Extreme?
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Superior Heat Dissipation : Liquid metal eliminates the need for solid particles, allowing for closer contact between the CPU cooler and heatspreader. This ensures consistent and efficient heat transfer.
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Minimal Layer Thickness : Gallium-based alloys achieve thinner layers than traditional pastes, reducing thermal resistance.
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High Energy Applications : Ideal for CPUs, GPUs, and other hardware operating under extreme thermal loads, such as overclocking or high-performance computing.
Advantages Over Traditional Thermal Pastes
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No Solid Particles : Traditional pastes rely on solid particles to fill microscopic gaps, which can create uneven layers and increase thermal resistance. Liquid metal provides uniform coverage without these limitations.
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Constant Heat Transfer : Unlike pastes, which may degrade over time, liquid metal maintains consistent thermal performance.
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Long-Term Stability : When applied to nickel-plated copper surfaces, Conductonaut Extreme ensures durable performance without degradation.
Important Notes
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Electrically Conductive : Handle with care to avoid contact with electrical components, as it may cause short circuits.
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Aluminum Incompatibility : Do not use with aluminum coolers, as gallium reacts with aluminum, causing corrosion and potential damage.
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Surface Recommendation : For best results, apply on nickel-plated copper surfaces to prevent diffusion and ensure long-term stability.
Application Tips
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Surface Preparation : Clean the CPU and cooler surfaces thoroughly using the included cleaning pads and lint-free cotton swabs.
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Application : Use the metal needle to apply a small amount of Conductonaut Extreme evenly across the CPU die or heatspreader.
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Avoid Excess : Remove any excess material using the plastic needle or a cotton swab.
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Compatibility Check : Ensure the cooler base is compatible (nickel-plated copper recommended).
Safety and Warranty Disclaimer
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Warning : Mishandling may result in permanent damage to hardware. Always follow the provided instructions carefully.
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Warranty Void : Applying Conductonaut Extreme may leave optical residues or diffuse into the heatspreader, potentially invalidating the manufacturer’s warranty. Proceed at your own risk.
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Disclaimer : Ensure proper safety precautions are taken during application to avoid electrical shorts or damage to components.
Use Cases
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Extreme Overclocking : Ideal for enthusiasts pushing CPUs and GPUs to their limits, ensuring stable temperatures under heavy loads.
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High-Performance Systems : Suitable for workstations, gaming rigs, and servers requiring maximum cooling efficiency.
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Custom Cooling Loops : Perfect for users building custom water-cooling setups with direct-die cooling solutions.
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