F5F Stay Refreshed Hardware Desktop The thermals rise quickly because warm air near the ground becomes less dense, causing it to ascend rapidly.

The thermals rise quickly because warm air near the ground becomes less dense, causing it to ascend rapidly.

The thermals rise quickly because warm air near the ground becomes less dense, causing it to ascend rapidly.

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NicoPlaysYT
Senior Member
250
07-23-2016, 08:10 AM
#1
Your PC is overheating quickly, dropping from 40°C to 90°C and then returning fast. This suggests thermal management issues. Check if the cooler is properly seated, clean dust from vents, ensure fans spin smoothly, and verify the CPU cooler is functioning correctly. Also, confirm the motherboard supports AIO cooling and that temperatures are monitored accurately.
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NicoPlaysYT
07-23-2016, 08:10 AM #1

Your PC is overheating quickly, dropping from 40°C to 90°C and then returning fast. This suggests thermal management issues. Check if the cooler is properly seated, clean dust from vents, ensure fans spin smoothly, and verify the CPU cooler is functioning correctly. Also, confirm the motherboard supports AIO cooling and that temperatures are monitored accurately.

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Dj_Nikita
Member
51
07-24-2016, 04:42 PM
#2
The issue involves thermodynamics with diminishing CPU cores and increasing heat generation. Heat dissipation slows because of reduced contact area, causing delays in transferring warmth to the cooler.
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Dj_Nikita
07-24-2016, 04:42 PM #2

The issue involves thermodynamics with diminishing CPU cores and increasing heat generation. Heat dissipation slows because of reduced contact area, causing delays in transferring warmth to the cooler.

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FlamingTiger9
Member
235
08-03-2016, 02:58 AM
#3
I think the cooling system might not be properly secured. It could be touching just a part of the heat spreader due to insufficient mounting force. Have you considered reattaching it?
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FlamingTiger9
08-03-2016, 02:58 AM #3

I think the cooling system might not be properly secured. It could be touching just a part of the heat spreader due to insufficient mounting force. Have you considered reattaching it?

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iDoNotEvenLift
Posting Freak
936
08-03-2016, 09:03 AM
#4
This was my first impression, yet in the video the temperatures only decrease once the load stops. If there were spikes followed by drops while the load remained active, I would concur. This pattern is quite typical, but it doesn’t match what I observed.
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iDoNotEvenLift
08-03-2016, 09:03 AM #4

This was my first impression, yet in the video the temperatures only decrease once the load stops. If there were spikes followed by drops while the load remained active, I would concur. This pattern is quite typical, but it doesn’t match what I observed.

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Scinion
Member
60
08-03-2016, 12:31 PM
#5
The problem lies in the small contact area and heat dissipation, not related to pump speed, coolant temperature or fan rotation. I can replicate this same effect on my 3100 model. The pump runs at full capacity, yet fans only slightly adjust to maintain temperatures. It can take 3-4 minutes for temperatures to decrease noticeably from peak levels.
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Scinion
08-03-2016, 12:31 PM #5

The problem lies in the small contact area and heat dissipation, not related to pump speed, coolant temperature or fan rotation. I can replicate this same effect on my 3100 model. The pump runs at full capacity, yet fans only slightly adjust to maintain temperatures. It can take 3-4 minutes for temperatures to decrease noticeably from peak levels.

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MLGKING_03
Junior Member
16
08-03-2016, 09:24 PM
#6
It’s typical for the die to heat up right away and stay that way during testing. As heat moves through the die, IHS, cold plate, and into the water, the system reaches a stable temperature and the cores gradually warm up. Once steady state is achieved, the maximum amount of heat can pass through the die, IHS, and cold plate, allowing the radiator to release it into the air and keeping the temperature stable. When the workload stops, temperatures inside the CPU drop quickly, while the water stays warm for a short time before the radiator starts cooling it down. As the water cools, the CPU core temperature also decreases slightly because warm water doesn’t transfer heat as effectively from the outside. This behavior is normal. Are you running an overclock? Which benchmark are you using? High loads like prime95 can generate excessive heat beyond normal levels.
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MLGKING_03
08-03-2016, 09:24 PM #6

It’s typical for the die to heat up right away and stay that way during testing. As heat moves through the die, IHS, cold plate, and into the water, the system reaches a stable temperature and the cores gradually warm up. Once steady state is achieved, the maximum amount of heat can pass through the die, IHS, and cold plate, allowing the radiator to release it into the air and keeping the temperature stable. When the workload stops, temperatures inside the CPU drop quickly, while the water stays warm for a short time before the radiator starts cooling it down. As the water cools, the CPU core temperature also decreases slightly because warm water doesn’t transfer heat as effectively from the outside. This behavior is normal. Are you running an overclock? Which benchmark are you using? High loads like prime95 can generate excessive heat beyond normal levels.