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Arctic Silver Ceramique 2 Thermal Compound - 25g
- £6.48 inc vat
- £5.40 ex vat
DescriptionHigh-Density ceramic content:
Like the original Ceramique, Ceramique 2 uses only ceramic fillers so it is neither electrically conductive nor capacitive. The tri-linear composite of aluminium oxide, zinc oxide and boron nitride allows the thinnest possible bond line with modern processors, heatsinks and electronics. Critically-sized particles and new ultra-high shear mixing techniques maximize Ceramique 2's thermal performance and help maintain a stable homogeneous suspension. This exclusive combination provides performance exceeding most metal based compounds.
Polysynthetic Suspension Fluid:
A new oil mixture, improved thermal filler properties and increased particle deagglomeration, dispersal and density enhance Céramique 2's thermal performance and overall stability. The third generation polysynthetic suspension fluid combines advanced synthetic oils to maximize wetting and stability while allowing a higher density of thermally conductive fillers.
Céramique 2 is engineered to not separate, run, migrate, or bleed.
Céramique 2 does not contain any metal or other electrically conductive materials. It is a pure electrical insulator, neither electrically conductive nor capacitive.
2 to 10 degrees centigrade lower CPU full load core temperatures than standard thermal compounds or thermal pads when measured with a calibrated thermal diode imbedded in the CPU core.
The amount of compound remaining in the 2.7-gram syringe is easy to determine as the rear of the plunger is perfectly flush with the flange when the syringe is empty.
Easy Clean Up:
Céramique 2 can easily be cleaned from CPUs and heatsinks with ArctiClean, isopropyl alcohol or any of the cleaners listed in the product instructions.
Average Particle Size:
Peak: –150°C to >185°C Long-Term: –150°C to 130°C
25-gram syringe. (Approximately 9.2cc)
At a layer 0.003" thick, one syringe will cover about 200 square inches.
Due to the unique shapes and sizes of the particles in Céramique, it will take a minimum of 25 hours and several thermal cycles to achieve maximum particle to particle thermal conduction and for the heatsink to CPU interface to reach maximum conductivity. (This period will be longer in a system without a fan on the heatsink.) On systems measuring actual internal core temperatures via the CPU's internal diode, the measured temperature will often drop slightly over this "break-in" period. This break-in will occur during the normal use of the computer as long as the computer is turned off from time to time and the interface is allowed to cool to room temperature. Once the break-in is complete, the computer can be left on if desired.