The copper shovel-tooth heatsink is made of pure copper material with a thermal conductivity coefficient of 380W/k. Long strips of material are mechanically cut at a certain angle to create straight and consistent gaps, and repeating this process forms an ordered gap structure. This design is used for cooling high-power devices under forced air conditions. The copper shovel-tooth heatsink can effectively improve the heat dissipation performance of these devices and maintain appropriate temperatures during operation.
The aluminum shovel-tooth heatsink is designed to solve the bottleneck of high-density tooth profiles that cannot be molded easily. Long strips of material are mechanically cut at a certain angle to create straight and consistent gaps, and repeating this process forms an ordered gap structure. This design is used for cooling high-power devices under forced air conditions and can improve heat dissipation by 5-8% compared with fin-based heatsinks.
The profile + heat pipe heatsink is primarily designed to meet the thermal requirements that cannot be met by a single profile heatsink. It is an enhanced version of the profile heatsink with the addition of heat pipes. The heat pipes quickly transfer the heat from the heat source to the surrounding area, allowing for air convection or forced air cooling to dissipate the heat. Its heat transfer capacity is more than 1000 times greater than that of copper pipes of the same size and weight, achieving efficient heat dissipation.
The shovel-tooth + heat pipe heatsink is mainly designed to meet the thermal requirements that cannot be satisfied by a single shovel-tooth heatsink. It is an enhanced version of the shovel-tooth heatsink with the addition of heat pipes. The heat pipes rapidly transfer the heat from the heat source to the surrounding area, allowing for air convection or forced air cooling to dissipate the heat. Its heat transfer capacity is more than 1000 times greater than that of copper pipes of the same size and weight, achieving efficient heat dissipation.
The main purpose of a heat sink with heat pipes is to address the cooling requirements that cannot be met by a simple finned heat sink. The primary enhancement is the addition of heat pipes, which rapidly transfer heat from the heat source to the surroundings. This allows for air convection or forced air cooling to remove the heat. The heat transfer capability of heat pipes is over 1000 times greater than that of copper pipes of the same size and weight, resulting in improved cooling performance.
High heat dissipation efficiency, good thermal conductivity, high density of teeth, short production cycle in small batches, and size can be customized at will
High heat dissipation efficiency, good thermal conductivity, high density of teeth, short production cycle in small batches, and size can be customized at will
High heat dissipation efficiency, good thermal conductivity, high density of teeth, short production cycle in small batches, and size can be customized at will
