Asus Announces Exotic Liquid Metal Thermal Compound to New ROG Gaming Laptops

Cooling is one of the greatest challenges facing gaming laptops, and ROG is constantly looking for ways to improve. This drive to innovate led to liquid metal compound that more efficiently transfers heat between the CPU and cooling module, providing headroom to improve performance, lower temperatures, and reduce noise. We’re excited to bring this exotic material to the entire 2020 lineup of ROG gaming laptops with 10th Gen Intel Core processors.

Serious overclockers and enthusiasts have long used liquid metal on high-end machines, but it’s typically applied by hand, which isn’t feasible for mass production. For more than a year, we’ve been developing a proprietary process and machine capable of applying it at scale. This is the story of how we’re bringing liquid metal to the masses.

 

What is liquid metal?

Liquid metals have low melting points that render them fluid at room temperature. These alloys are highly conductive, so they’re extremely effective at transferring thermal energy between surfaces like a processor die and heatsink. The benefits are well-established in overclocking and DIY circles, and internal testing reinforced the appeal for gaming laptops. Our engineers observed a 10~20°C reduction in temperatures depending on the CPU.

The improved thermal interface creates margin that can be used in different ways. Lower temperatures help processors sustain higher clock speeds for longer, and also prevent fans from ramping up to louder RPMs. The additional thermal headroom can also be used to reach even faster frequencies and higher performance. 

 

 

Although liquid metal’s properties are consistent regardless of the processor, our research indicates that Intel CPUs have the most to gain. The die is small, with heat concentrated in eight distinct regions of the chip. It’s also surrounded by a safe zone on the CPU package that’s free of surface-mounted components that don’t get along with electrically conductive materials. We want to deploy liquid metal where it can have the biggest benefit and be the most reliable.

There are different kinds of liquid metal on the market. We use Conductonaut from Thermal Grizzly because it has a lower concentration of tin, which isn’t as conductive as the gallium and indium that also make up the alloy. Rather than working closely with Thermal Grizzly like we do with other partners, we purchased initial quantities more casually to keep the project a secret. Not even Intel knew of our plans during development.

 

It’s all in the wrist

Our research into liquid metal extended into how the compound’s properties affect its viability in a manufacturing context. Liquid metal reacts with aluminum, which restricts the materials that can be used in heatsinks and on the production line. And unlike thicker thermal paste, liquid metal is truly fluid; it can easily go anywhere even when carefully squeezed onto the CPU. That’s why applying liquid metal has traditionally been a painstaking process done by hand. While this approach works for individual builders and tuners dealing with one or two chips, automation is required to keep up with the volume of laptops that ROG produces.

We developed a two-stage method that ensures the complete coverage required for optimal performance. The process begins by brushing the compound onto the die and concludes with additional injections to get the amount just right. Custom machinery performs both steps with mechanical precision.

Step one is essentially painting; a mechanized arm wets its brush in a container of liquid metal and then glides back and forth across the CPU. It performs exactly 17 passes, which our extensive testing determined is the ideal number for complete coverage. Rather than simply sliding back and forth, the machine mimics human motion by also moving vertically to add a subtle arc.

Cotton swabs are normally used to spread liquid metal by hand, but they absorb some of the compound and change shape as a result. We experimented with multiple vendors and more than 30 different brush designs to determine the best shape and material for long-term use. The final version is made of silicon, which doesn’t deform or degrade with prolonged exposure.

To minimize accumulation on the edges of the processor, the initial brushing pass makes contact at a different point on the surface than subsequent strokes. The die also is set inside a stainless steel shim that prevents excess compound from spreading to the surrounding area. An earlier version of this shim fit onto the motherboard, but the latest iteration is small enough to sit directly on the CPU package, so it can be used for different laptops from the same generation.

read the full press release here… ASUS

 

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