Compact Design, Optimum Cooling
Miba Cooling has many years of experience in development and manufacturing. The products range from standard cylindrical designs to customer-specific heatpipe assemblies (e.g. heat tower).
Heatpipe assemblies are required for applications that have higher temperature specifications. Usually where conventional air cooling reaches its limits. Thanks to their compact design, they offer optimal cooling using forced or natural convection.
We offer flexibility with various diameters, lengths, operating temperatures, and shapes.
Miba Cooling has many years of experience in development and manufacturing heatpipes.
It makes applications possible where conventional air cooling reaches its limits.
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Heatpipes with various standardized diameters and lengths are the ultimate super conductors. This is because they ensure a highly efficient thermal transfer from the heat source to the heat-dissipating fins.
Miba Cooling heatpipes are also very flexible in design. Available as follows:
The tube material is copper. The inner side of the tube features a capillary structure. The working fluid is matched to the operating temperatures.
Minimal thermal resistance
Increased efficiency and maximum reliability over the service life
Customized sizes and shapes
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Heatpipe systems (assemblies) consist of a base plate for mounting the module or modules and a fin stack to dissipate the heat. They are a highly effective way to use the available space and air flow. That is because the heat is transferred from the module to the cooling air in the most efficient way.
The evaporation zone (module base) and the condensation zone (fin stack) are individually optimized. They are configured to deliver the best possible performance with the lowest possible weight and size.
A critical issue is the transition points between the heatpipe and the base plate and fins. During the development of these interfaces, the focus was on achieving minimal thermal resistance.
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Our systems consist of a base plate for mounting the module or modules and a fin stack to dissipate the heat.
Heatpipes are ideal solutions because they ensure a highly efficient thermal transfer from the heat source to the heat-dissipating fins.