Heat pipes are among the most efficient ways to move thermal energy or heat from one location to another. The typical uses of the two-phase systems are for cooling areas or materials. Heatpipes were first used in energy conversion systems to supply heat or remove heat waste. Today heatpipes are used in cooling and heat transfer in satellites, cell phones, and computer systems.
Copper heat pipes are designed for applications having gravity present thermal challenges or high heat loads. They are used when long life and reliability are critical. The rugged heatpipes have a sintered copper powder wick structure that withstands temperature and numerous freeze-thaw cycles ranging from -55° C to 180° C.
Copper heat pipes operate flawlessly against gravity. Water is used as the working fluid in these heatpipes. The heatpipes move heat from its source to the point where it is managed more efficiently through liquid or air dissipation or radiated to space.
Copper heat pipes are typically incorporated into custom thermal solutions. They are integrated into customized metal cold plates or heat sinks to improve efficiency and effective conductivity. The integration allows thermal designers to improve the overall performance of a system.
The heatpipes can be integrated into extended surfaces, cold plates, and heat sinks through mechanical interference, solder, or epoxy. Copper heat pipes will last more than 20 years. Manufacturers have thermal solution calculator tools that help accurately predict and project how thermal solutions will perform.
The calculators
Determine k-Core APG heat spread
Evaluate heatpipes for performance and sizing
Evaluate heat spread improvement for vapor chambers
Identify enclosure cooling options to meet target cabinet temperatures
The calculators easily and quickly determine the dimensions needed for the orientation and type of cooling fluid. The calculator helps achieve optimum performance from passive heatpipes for any application. They are used to determine the heatpipe size needed to attain a targeted thermal spread and conductivity in W/mK.
Copper heat pipes are designed for applications having gravity present thermal challenges or high heat loads. They are used when long life and reliability are critical. The rugged heatpipes have a sintered copper powder wick structure that withstands temperature and numerous freeze-thaw cycles ranging from -55° C to 180° C.
Copper heat pipes operate flawlessly against gravity. Water is used as the working fluid in these heatpipes. The heatpipes move heat from its source to the point where it is managed more efficiently through liquid or air dissipation or radiated to space.
Copper heat pipes are typically incorporated into custom thermal solutions. They are integrated into customized metal cold plates or heat sinks to improve efficiency and effective conductivity. The integration allows thermal designers to improve the overall performance of a system.
The heatpipes can be integrated into extended surfaces, cold plates, and heat sinks through mechanical interference, solder, or epoxy. Copper heat pipes will last more than 20 years. Manufacturers have thermal solution calculator tools that help accurately predict and project how thermal solutions will perform.
The calculators
Determine k-Core APG heat spread
Evaluate heatpipes for performance and sizing
Evaluate heat spread improvement for vapor chambers
Identify enclosure cooling options to meet target cabinet temperatures
The calculators easily and quickly determine the dimensions needed for the orientation and type of cooling fluid. The calculator helps achieve optimum performance from passive heatpipes for any application. They are used to determine the heatpipe size needed to attain a targeted thermal spread and conductivity in W/mK.
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