Top-rated products in the Thermal pads category
Here's a ranking of the top rated products in this category. To give you a quick overview, we've also added some key information about the products.
1. Thermal Grizzly Minus Pad 8
The high-performance thermal pads of the Thermal Grizzly Minus Pad series feature a highly elastic and adaptable surface with very high thermal conductivity. This allows for excellent compensation of even the smallest component discrepancies. Available in various sizes and thicknesses.
2. Arctic Thermal pad 0.5 mm
The Arctic Thermal Pad provides an efficient thermal interface between heat sinks and electronic devices when uneven surfaces, air gaps, and rough surface structures are present. The silicon-based material outperforms generic pads, is flexible and adaptable, and thus works even under low pressure. 145 x 145 mm (0.5).
3. Thermal Grizzly Carbonaut thermal pad - 38 × 38 × 0.2 mm
To achieve these goals, Thermal Grizzly has worked closely with and tested the well-known extreme overclocker Roman "der8auer" Hartung during product development, developing chemical compounds and analyzing competitors.
The features of the Thermal Grizzly Carbonaut thermal pad at a glance: Reusable, non-adhesive heat-conducting pad. Made of carbon-based polymer with nanoparticles. Extremely high thermal conductivity of 62.5 W/(m-K). 0.2 mm thick and 38 × 38 mm Intel CPUs for Socket 2066 and AMD CPUs for Socket AM4. Attention. Please observe the manufacturer's warnings before use. The Carbonaut is electrically conductive and is therefore not suitable for use on MOSFETS or voltage converters.
4. Thermal Grizzly KryoSheet
Thermal Grizzly presents KryoSheet, a new product that is part of the company's advertised high-performance cooling solutions. The graphene thermal pads from the Thermal Grizzly KryoSheet series can serve as an excellent alternative to high-end thermal pastes. Similar to the Carbonaut pads, they feature a flexible surface with very high thermal conductivity.
5. Iceberg Thermal DRIFTIce Thermal Pad.
DRIFTIce by Iceberg Thermal is easy to apply, precise, and ensures uniform contact when filling air gaps. The thermal conductivity of this thermal pad is 13 W/mK. Iceberg Thermal guarantees that you will be satisfied with the heat transfer of DRIFTIce. DRIFTIce can be used as a thermal gap filler for your VGA cards, RAM, and notebook PC components. The thermal pads are available in various sizes and thicknesses. You choose the thickness according to your needs. You have the control.
6. Thermal Grizzly Carbonaut thermal pad - 32 × 32 × 0.2 mm
Thermal Grizzly from Hamburg is a new German brand dedicated to combating high temperatures and poor heat transfer. The goal is to supply the overclocking community with high-performance thermal interface products, which remain a weak point. However, the product portfolio can also be used for better and quieter cooling of gaming PCs, workstations, mini-PCs, and many other applications. In addition to higher clock rates, better thermal interface products enable quieter cooling and a longer lifespan for the components being cooled.
To achieve these goals, Thermal Grizzly has closely collaborated with renowned extreme overclocker Roman "der8auer" Hartung during product development and testing, developed chemical compositions, and analyzed competitors. The product line is now expanded with an innovation in thermal pads: Thermal Grizzly's Carbonaut.
Thermal pads
−7%
CHF13.70 was CHF14.70
Thermal Grizzly Carbonaut thermal pad - 32 × 32 × 0.2 mm
0.20 mm, 62.50 W/m K
7. Iceberg Thermal DRIFTIce Thermal Pad.
Iceberg Thermal is a manufacturer dedicated to creating the best possible solutions in the PC cooling industry. Most of the engineers on the team have over 15 years of experience and can apply this expertise at every stage of production, from the initial design to the factory floor and into the hands of the customer.
8. Thermal Grizzly PhaseSheet PTM - 50x40mm
The phase-change material on which the PhaseSheet PTM is based is solid at room temperature. The material only begins to liquefy at temperatures above 45 degrees Celsius. A high contact pressure of around 300-400N is required for optimum distribution of the liquid PhaseSheet PTM and thus the lowest possible layer thickness. PhaseSheet PTM has a very low viscosity in its liquid state and contracts again when it changes to a solid material. This minimises the pump-out effect. The pump-out effect is particularly pronounced when combining a copper cooler on a graphics chip because silicon and copper have different linear expansion when heated. The temperatures under load cause the heat spreader and the base plate to deform (concave or convex) and return to their original shape (straight) during cooling. As a result, the thermally conductive paste is slowly pressed out between the heatspreader and the base plate of the CPU cooler, for example. PhaseSheet PTM is more durable than traditional thermal pastes, but not as durable as KryoSheet, for example, which is virtually maintenance-free. The maximum thermal conductivity of PhaseSheet PTM develops and stabilises after around ten heat cycles above 60 degrees Celsius. Brief information Outstanding thermal conductivity Consistently high performance Very long service life Versatile in use Non-electrically conductive Easy to use Scope of delivery 1x PhaseSheet PTM.
9. Phobya Thermal pad XT 120x20x1mm
Phobya's improved thermal pads with 7 W/mk are performance-wise on par with high-end thermal pastes. These "XT" thermal pads are excellently suited to compensate for height differences and irregularities on heatsinks and the components to be cooled. Their very good elastic pressure capability and low hardness allow for excellent adaptation to surfaces even with minimal pressure. They compensate for all large and small height differences, from microscopic grooves to visible irregularities. The surface of the pad is covered with a protective film that must be removed before use. These thermal pads can also be cut to the desired size. They are suitable for use with RAM coolers on graphics cards as well as for voltage regulators on motherboards. These thermal pads can even be used for large components such as the North or Southbridge, as they possess excellent thermal conductivity.
10. Alphacool Ice layer Heat conducting pad
An ice layer not in the conventional sense of frozen water, but a layer that causes every chip to freeze. The properties of the new thermal pads speak for themselves. The "Alphacool Ice Layer" offers all the advantages and typical characteristics of a thermal pad: self-adhesive, elastic, adaptable, and much more. Its application area is equally versatile, whether for RAM and motherboard coolers or graphics card and CPU coolers; wherever a circuit board meets a heat sink, the Alphacool Ice Layer is a wise choice. Dimensions of the pad are 100x100x1 mm.
