Material analysis in detail
Let’s start with the heatsink. This is also made of pure electrolytic copper at PNY and has only been nickel-plated very thinly. You can still see the tool marks shining through slightly. But that doesn’t really matter, because there is also…
… the heat-conducting paste. It is quite thin and consists of a corundum-silicon mixture without ZnO. Something could certainly be optimized here in terms of long-term durability.
Now we come to the thick gray pads, where a fairly soft compound is used. With an aluminum oxide-silicone mixture, these silicone pads are usable middle class.
The pads on the VRMs are somewhat firmer, but here too it is exclusively corundum as a filler for the silicone matrix.
If you look at the VRM heatsinks, they are all nickel-plated aluminum.
The heatpipes are made of nickel-plated copper and hide no secrets. Just the usual.
The black-coated backplate is made of pure aluminum.
The clamping cross of the GPU is made of spring steel as a nickel-plated iron-copper alloy. That concludes the analysis part and we finally come to the benchmarks.
- 1 - Introduction, technical data and technology
- 2 - Test system and measuring equipment
- 3 - Teardown: Cooler
- 4 - Teardown: PCB, layout and components
- 5 - Teardown: Detailed material analysis
- 6 - Gaming Performance FHD (1920 x 1080)
- 7 - Gaming-Performance WQHD (2560 x 1440)
- 8 - Gaming Performance Ultra-HD (3840 x 2160)
- 9 - Gaming Performance DLSS / FSR
- 10 - Power consumption and load balancing
- 11 - Load peaks, clipping and PSU recommendation
- 12 - Temperatures, clock rates and infrared analysis
- 13 - Fan curves and noise level with audio sample
- 14 - Summary and conclusion
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