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The heatsink fins offer a solution to down the component's temps. This type of heatsink is suitable for cooling M.2 2280 SSD, for SM951, for SM961, for 950PRO, for XP941, etc.
What will I get?
Material: Copper, Silicone
Type: Groove Pattern
Heatsink Size: 70x20x1.5mm/2.75x0.79x0.06inch
In the package of:
1 x Copper Heatsink
1 x Pre-Cut Thermal Pad(1mm thick)
3 x Rubber Rings
Are there any advantages of the product?
With a smooth surface, is corrosion-proof and durable.
Made of copper material, can improve the heat dissipation efficiency greatly and ensure the stable operation of the hard disk.
The heatsink can achieve dual heat dissipation with the thermal pads.
How to use it?
2 Installation Methods :
One: Use the rubber rings to directly bind the heatsink and your components, easy to install.
Two: First, Drill a small hole for screw mounting; Second, clean the heatsink and your components; Third, use a screw tool to fix the three parts (heatsink, silicone pad, and your components) together.
What should I notice?
The thermal pads with two sides of protective film, please peel off before attaching.
DG
Reviewed in Canada on January 2, 2025
i've tested this several times with or without airflow in an enclosure both with the casing closed and in open air, and i found that this, like many passive heatsinks, don't do anything when temp rises on ssd load without proper air circulation. this one especially performs very poorly in vented, unvented and fan vented scenarios; this heatsink only delays the heat spike and poorly dissipates heat, even with available airflow and fan blowing at it.despite a solid theory of copper and graphene, i found that the taller aluminum alloy heatsink with fins does better at dissipating heat on full load. for reference, my ssd spikes over 60 degrees celsius on full load without a heatsink. with this, the ssd goes to 59 degrees on full load, even with the internal fans blowing at 85% whereas the aluminum alloy heatsink is able to keep it at 51 degrees on full load with the same fan dynamics inside the chassis. idle is also not great. with this, the ssd idles around 45 to 47 degrees. with the other, it idles around 40 to 43, so i can't recommend this on any scenario since it simply doesn't perform, and in high heat cases, does very little to mitigate heat spikes.i installed both heatsinks just stuck on top of the ssd with two thermal pads and without the bottom plating. just make sure to firmly but lightly press it on top of the ssd. i found that the thermal pad stick tightly to the heatsinks when the they're heated up by ssd, so there's no need to use the rubber bands included with this product.i have this installed on a lenovo pb60 mini pc on top of a teamgroup mp33 pro ssd.
.
Reviewed in Canada on June 21, 2024
Great!
Richard
Reviewed in Canada on February 2, 2024
It's was easy enough to attach, it looks pretty, and it reduces temperatures a little bit. I put it on a Western Digital 850X that's on the motherboard under the graphics card, so I couldn't use a tall heatsink. It seems to have reduced the temperature by 3 degrees, from 60 degrees to 57. That might not sound very good, but I also bought a fancy Sabrent Rocket heatsink for my other SSD, a Samsung 990 Pro, and that one reduced the SSD's temperature by 4 degrees, from 56 degrees to 52. So either there's an airflow problem or passive SSD heatsinks just don't do much.
Lofidelityrockr
Reviewed in the United States on October 28, 2024
I love the graphene coated copper heatsinks. I can’t find the icepc brand I used before so this one was the next closest. I needed it as thin as I could get with copper and graphene as space is limited in the drive enclosure and thermal transfer is very important. So far my NVME drive temps even on large up/down transfers keeps the temp in a nominal zone on the drive.Even during a 55Gb transfer the heat stayed below 50°C without a fan in the portable drive enclosure.I will definitely be getting more as future projects arise. The thickness is just within the tight tolerance of the enclosure without putting excessive pressure on the NVME board. For the 2280 size drive this fits perfectly. When I do a 2230 I am going to see how easy breaking the squares off to fit in the enclosure designed to fit only the 2230.
bob frost
Reviewed in the United States on September 28, 2023
Well machined, good price, the rubber rings that help secure the heatsink to the thermal pads are good quality too, but that thermal pad is truly junk, bottom of the barrel and certainly will hurt your performance. It's far to hard and inflexible to fully mold around the nand controller chip or the nand chips among other components on your 2280 nvme. Also the thermal conductivity sucks too. Spend an extra 9 bucks for the very soft and pliable ARCTIC TP-3: Premium Performance Thermal Pad, 120 x 20 x 1.0 mm pads, when installing the heatsink remove the sticker on top of the nvme drive, "that will lessen thermal conductivity slightly if you don't, then clean the nand chips and controller with a damp qtip with 91 percent isopropyl to remove any glue residue, then after trimming the thermal pad to size preferably with a sharp xacto blade, put it evenly on the back of the heatsink after first cleaning the back of the heatsink with rubbing alcohol to shine it up first, get it Lined up on the nvme, then put medium pressure on the heatsink, in the center then on both sides at the same time, go back and forth a few times ensuring that the heatsink doesn't move after as you don't want air bubbles trapped under the pad, adequate pressure is good which will push down the thermal pad onto all of the components getting rid of any trapped air and increasing thermal conductivity, wear powder free gloves too so the oils of your skin don't come into contact with the copperheatsink or thermal pads "skin oil is slightly acidic and can tarnish the copper over time and potentially react with the thermal pad" then you'll be happy. Be careful not to pinch or crush those softvartic pads as they will not spring back and will be very much molded to any pressure. Which when mounted cotmrrectly is what you want, also becareful not to stretch the pad either when installing. My Samsung 980 is a whole 10 degrees cooler at idle went from 46 and idle even in efficiency mode to 36 at idle at high performance mode, it hardly breaks 45 to 46 degrees under full load for 15mins, in my thin and light laptop and does not get above 54 degrees c under full load after an hour of beating my drive up. Install it right and you'll be happy.
TraceX
Reviewed in the United States on August 3, 2023
This is a neat aftermarket solution. The 70x20x3mm heatsink comes with ~1mm thermal pad and 5 rubber rings(only 3 advertised). The rings are rather straight forward to attach, slotting into the grooves in the heatsink. Though it did take a decent amount of pulling force and tweezers to accomplish. I'll be sure to update if the the quality of the bands doesn't hold up. The 3mm height seems to fit well enough, as the M.2 slot is on the back side of my motherboard, and the heatsink does not contact the back of mt case. The thermal performance really shows, as my NVMe temps have gone from high 70's to 43°C. Impressive considering the unpolished surface.
Saeed
Reviewed in Canada on June 27, 2023
Obviously the temperature is very dependent to the environment but in my case which is a very small enclosure, I can see 7-8 degree decrease in the idle temp, mine usually sat around 61-62 now is 55-56 when NOT heavily used, but starting using the ssd, copying large files, it goes up to 65-66 which still high for this particular brand as max temp is 70, I think for a smaller enclosure if there is not enough breathing room, something with more heft or with a small fan definitely works better, but still I'll give it 4 star not sure what you can expect more from a thin piece of copper heatsink at this price.
Neill
Reviewed in the United States on November 15, 2023
If it were easier to keep firmly attached (the bands aren't very easy to attach) I'd give it 5 stars. No issues with keeping the SSD cool. It may be actual copper, I haven't checked, so I can't speak to quality authenticity. The adhesive seems to be what comes with most heatsinks. I got the 3mm then had to exchange it for the 1.5mm because my laptop would close but bulge with the 3mm in it. I have a Dell Inspiron laptop.
32bitter
Reviewed in the United States on November 27, 2022
I bought the 1.5mm size to fit underneath a double-sided SSD in a PS5, the top side would have a giant heatsink that replaces the PS5 SSD slot cover, so it presses down on the SSD from above. I was able to make this fit under the SSD only if it touched the SSD directly without any thermal pads in between. The PS5-specific heatsink/slot cover design assumes a specific exact height of the SSD blade for everything to make contact correctly, and with this underneath I did get it all to work, but barely.And the very thin thermal pad included with this heatsink, I placed on top of the SSD where it mates with the upper heatsink. Using the thicker pads that came with the top heatsink made everything too thick and I couldn’t bolt down the slot cover/heatsink on top.In other words, for this particular PS5 setup the 1.5mm size was slightly thicker than ideal, but it did ultimately work. I think it is okay to forgo the thermal pad on bottom, maybe some thermal paste would help if you want? The SSD does have a sticker covering the blade so the chips aren’t touching the copper directly.The silicone? bands held up for several attempts at installation and removal, and are very thin so they don’t interfere much with the thermal pads on the other side, I was able to place them in between the SSD chips to keep things flush. Overall I feel good having this installed below the SSD to complement the larger heatsink on top.
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