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With heat pipe as the core, heat pipe thermal module, which is composed of heat sink, fin and fan, can solve the heat dissipation problem caused by narrow space or too concentrated heat . The key parts is heat pipe that is an efficient heat conduction device made by …

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With heat pipe as the core, heat pipe thermal module, which is composed of heat sink, fin and fan, can solve the heat dissipation problem caused by narrow space or too concentrated heat .

Heat pipe - Wikipedia

A heat pipe is a heat-transfer device that combines the principles of both thermal conductivity and phase transition to effectively transfer heat between two solid interfaces. ... A …

Copper or Aluminum Heatsink? - Electrical Engineering ...

This means that a copper heat sink will be quite more effective at removing heat than an aluminium one. Which you choose is a matter of compromise: alumimium heat sinks are cheaper and lighter, and so are the first choice for general purpose design.You have a lot of good information from the users above! Please consider my answer significant and important bit supplimental to the advice you already have: The thermal interface material (TIM) can matter as much and easily even more than the material you choose for your heatsink! I say this from experience and personally testing dozens of types and varieties of interface material. Your budget, attachment methods, and other design perameters will probably narrow your choices a specific type of TIM. For example: a paste requires the heatsink to be mechanically secured and an adhesive does not. Some materials are messy and difficult to use but perform well and some stuff out there is almost worthless in its performance and may or may not be easy to use. I would say with a lot of confidence that the TIM you use can easily matter way more than if you use copper or aluminium. Not in every case but the performance differences can be surprising. Seeking popular and well reviewed materials for CPU/heatisinks can give you some good options to choose from. Good luck!Best answer · 6Copper has got better thermal conductivity. Aluminium - \$ \mathrm{ 200 \frac {W} {m\cdot K} } \$ Copper - \$ \mathrm{ 400 \frac {W} {m\cdot K} } \$ (from here , also here ) But thermal conductivity within the solid material is only a part of the story. The rest of the story depends on where one wants to dump the heat into. Liquid coolant Copper heatsink (one may also call it heat transfer block) will perform better than aluminium. Air with forced convection In other words, there's a fan blowing onto the heatsink. Copper heatsink will perform better than aluminium. Air with natural convection I've saved best for last. It also looks like it's the O.P.'s case too. With natural convection air , the copper heatsink perform only marginally 1 better (in °C/W) than aluminium. This is because the bottleneck isn't in the transfer withing metal. When you have air with natural convection, the bottleneck is in the transfer between metal and air, and it's the same for Al and Cu. 1 I might add that the marginal increase is often not worth the cost of Cu. This curve demonstrates the non-linear relationship between heat transfer and material thermal conductivity. The curve is generic. It applies to any application having both conduction and convection components to the total heat transfer. [Radiation is typically small and is ignored in this calculation.] The shape of the curve is the same regardless of the application. The quantitative values on the axes are not shown because they depend on the power, part size and convective cooling conditions. They become fixed for any given application and set of conditions. It’s obvious from the shape of the curve that heat transfer depends on material thermal conductivity but there is also a point, a knee in the curve, where increasing thermal conductivity produces negligible improvement in the heat transfer . ( source , emphasis mine N.A.) Phil have already linked an ECN article which compares aluminium and copper in air with natural convection. Here's another take at it: what if we compare aluminum to a material with lower thermal conductivity (unlike copper). There is a company that makes thermally conductive plastic. It has got \$ \mathrm{20 \frac {W} {m\cdot K} } \$ conductivity, but that's a lot for a plastic. They have benchmarked it against aluminium in air with natural convection. E2 is the plastic ( source )25It's a complex question, with many factors. Let's look at some physical properties: thermal conductivity (\$\mathrm{W \over m\cdot K}\$) copper: 400 aluminium: 235 volumetric heat capacity (\$\mathrm{J \over cm^3 \cdot K }\$) copper: 3.45 aluminium: 2.42 density (\$\mathrm{g \over cm^3}\$) copper: 8.96 aluminium: 2.7 anodic index (\$\mathrm V\$) copper: -0.35 aluminium: -0.95 What do these properties mean? For all the comparisons that follow, consider two materials of identical geometry. Copper's higher thermal conductivity means the temperature across the heatsink will be more uniform. This can be adventurous since the extremities of the heatsink will be warmer (and thus more effectively radiating), and the hot spot attached to the thermal load will be cooler. Copper's higher volumetric heat capacity means it will take a larger quantity of energy to raise the heat sink's temperature. This means copper is able to "smooth out" the thermal load more effectively. That might mean brief periods of thermal load result in a lower peak temperature. Copper's higher density makes it heavier, obviously. The differing anodic index of the materials might make one material more favorable if galvanic corrosion is a concern. Which is more favorable will depend on what other metals are in contact with the heat sink. Based on these physical properties, copper would seem to have superior thermal performance in every case. But how does this translate to real performance? We must take into account not only the heatsink material, but how this material interacts with the ambient environment. The interface between the heatsink and its surroundings (air, usually) is very significant. Furthermore, the particular geometry of the heatsink is significant as well. We must consider all these things. A study by Michael Haskell, Comparing the Impact of Different Heat Sink Materials on Cooling Performance performed some empirical and computational tests on aluminium, copper, and graphite foam heatsinks of identical geometry. I can grossly simplify the findings: (and I'll ignore the graphite foam heatsink) For the particular geometry tested, aluminium and copper had very similar performance, with copper being just a little bit better. To give you an idea, at a 1.5 m/s airflow, copper's thermal resistance from the heater to the air was 1.637 K/W, while aluminium was 1.677. These numbers are so close it would be difficult to justify the additional cost and weight of copper. As the heatsink becomes large compared to the thing being cooled, copper gains an edge over aluminium due to its higher thermal conductivity. This is because the copper is able to maintain a more uniform heat distribution, drawing the heat out to the extremities more effectively, and more effectively utilizing the entire radiating area. The same study did a computational study for a large CPU cooler and calculated thermal resistances of 0.57 K/W for copper and 0.69 K/W for aluminium.10Thermal conductivity of copper is almost 60% higher than that of aluminium. This means that a copper heat sink will be quite more effective at removing heat than an aluminium one. Which you choose is a matter of compromise: alumimium heat sinks are cheaper and lighter, and so are the first choice for general purpose design. Howewer, where you must remove large quantities of heat in little space, copper might be preferable. However, it is not possible to make an absolute comparison between the two materials without knowing the specific application and the other constraints of the specific design the heat sink must be adapted to. There are other factors to keep in mind (including the environment where the heat sink must "live" in). Copper is able to conduct heat better than aluminium, but thermal coupling between heat source and heat sink, and also between heat sink and "outer world" should be considered. For example, is the heat sink coupled with free air through small fins? Or is it coupled to some kind of liquid coolant flowing in a tube? Is convection involved in heat removal process, or is heat radiation the primary mechanism (think of space probes, as an extreme case). Is the environment likely to cause corrosion (underwater devices; devices inside some chemical reactor)? Some alloys are more resistant to certain type of corrosion than others.4Copper has about between 50% and double the thermal conductivity of aluminum depending on alloy, so for a given performance a copper heatsink can be 'half' the size of an aluminum one. However, copper is much more expensive than aluminum, and somewhat more difficult to fabricate, so it is more costly to produce. In some cases, the small size is worth paying for.

Heat pipe - Wikipedia

A heat pipe is a heat-transfer device that combines the principles of both thermal conductivity and phase transition to effectively transfer heat between two solid interfaces. ... A heat sink (aluminum) with heat pipes (copper)

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This means that a copper heat sink will be quite more effective at removing heat than an aluminium one. Which you choose is a matter of compromise: alumimium heat sinks are cheaper and lighter, and so are the first choice for general purpose design.

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I decided to move to copper for the heat sink base for its better conduction. While copper is a good conductor of heat, it is inferior to aluminum for getting rid of the heat it has absorbed. The proposed solution was to use each of them for the properties they did best.

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In addition, discussion is focused on the most ubiquitous type of heat pipe, i.e. copper tube with sintered copper wick using water as the working fluid. The article is also not intended to provide detailed analysis on the proper design of heat pipes and heat sinks, but rather to offer guidance on the number and size of heat pipes used as well ...

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In general a heat pipe consists of a sealed usually aluminum or copper tube, a wicking structure and a few cc’s of fluid under pressure. ... extruded heat sinks, liquid cooled heat sinks, thermal management heat sinks, heat exchangers heat sinks, soldered fin heat sinks, extruded heat sink, folded fin heat sink, high power heat sink, cold ...

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A Skived custom heatsink combines special cutting tools and a controlled shaving technique to produce a heatsink from a single block of material, such as copper or aluminum. The typical result is a thin-finned heatsink, with a dense population of uniformly shaped and distributed fins.

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