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Vapor chamber heat sink assemblies
What are heat pipes and vapor chambers?
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7 Jan 2019
Heat pipe is a passive heat transfer device that uses the phase change of the working fluid to transfer heat. They consist of a sealed container filled with a small amount of liquid. When one end of the heat pipe is heated, the liquid evaporates, absorbing the heat and turning into steam. The vapor then flows to the cooler end of the pipe, where it condenses into a liquid, releasing the absorbed heat. This cycle continues, resulting in efficient heat transfer.
A vapor chamber, on the other hand, is essentially a flat heat pipe. They are designed to spread heat over a larger surface area, which makes them particularly effective for applications where space is limited. Vapor chambers work similarly to heat pipes but are typically constructed in two dimensions, allowing for better heat distribution across the surface.
Heat pipe VS Vapor chamber
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7 Jan 2019
Thermal conductivity
One of the main advantages of vapor chambers is their excellent thermal conductivity. Due to its design, vapor chambers spread heat more evenly across the surface, which is critical for high-performance applications such as CPUs and GPUs. In contrast, heat pipes are more efficient at transferring heat point-to-point, but the heat distribution may be uneven.
Size and appearance
Vapor chambers are generally more compact than heat pipes, making them ideal for modern electronics that require a slim profile. Their flat design allows them to fit into tight spaces, whereas heat pipes may require more volume to function effectively. This compactness can be a significant advantage in applications where space is at a premium.
Direction and Versatility
Heat pipes are generally more versatile when it comes to orientation. They can operate effectively in a variety of positions (horizontally, vertically and even upside down), making them suitable for a wide range of applications. Vapor chambers, while effective, may be limited in performance due to their orientation, especially if the design does not accommodate gravity.
Cost and Complexity
From a manufacturing perspective, heat pipes are generally simpler and cheaper to produce than vapor chambers. The complexity of vapor chamber design and construction can result in higher costs, which may be a consideration for budget-sensitive projects. However, the performance benefits of vapor chambers may justify the additional expense in high-end applications.
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01. Is it possible to have some design optimization on the heatsink if customer needs ?
Yes, Sinda Thermal provide customization service to all customer;s needs with lower cost.
Yes, Sinda Thermal provide customization service to all customer;s needs with lower cost.
02. What's the MOQ for this heatsink?
We can quote base on different MOQ as per customer needs.
03. Do we still need to pay for the tooling cost for this standard parts?
The standard heatsink is developed by Sinda and sell to all customers, no tooling charge cost.
04. How long is the LT?
We have some finished good or raw material in stock , for sampledemand , we can finish in 1 week ,and 2-3 weeks for mass production.
05. Is it possible to have some design optimization on the heatsink if customer needs ?
Yes, Sinda Thermal provide customization service to all customer;s needs with lower cost.
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