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Black Pin Fin Anodized Heat Sink Aluminum Round For LED Downlight

Place of Origin: Guangdong

Company Profile

Location: Guangzhou, Guangdong, China (Mainland)
Business Type: Manufacturer
Main Products: LED Heat Sinks, LED Lamp Heat Sink, LED Bulb Heat Sink

Product Detail

Model No.: TZC-008

Product Description

 

Black Pin Fin Anodized Heat Sink Aluminum Round For LED Downlight
 

 

Description:
 

Aluminum LED Downlighting Pin Fin Heat Sink with Black Anodize has a broad range of pin fin solutions for LED cooling. Pin fins are perfectly suited for convection cooling due to their high surface area. They can be manufactured in aluminum or copper and they come in a variety of shapes including round, oblong, square and rectangular.

 

 

 

Specifications:

 

Base Diameter

Ø80mm

Base Thickness

5mm

Total Hight

50mm

Body Dianeter

Ø3mm

Number of cylinders

147Pcs

 

 

Packaging & Delivery

 

Packaging Detail: box,carton, poly box or plastic bog or according to your requirement.
Delivery Detail: within 10 days,actually depends on the quantity

The Perfect Fit for LED Applications!

Aluminum LED Downlighting Pin Fin Heat Sink with Black Anodize has a broad range of pin fin solutions for LED cooling. Pin fins are perfectly suited for convection cooling due to their high surface area. They can be manufactured in aluminum or copper and they come in a variety of shapes including round, oblong, square and rectangular.

Sizes range from:

  • Diameters of 10 mm to 80 mm
  • Width from 10 mm to lengths of 200 mm

A variety of standard shapes and sizes are available and these can be modified to meet your application requirements.

Our thermal engineers can also design and model a customized cooling solution for your LED application or we can manufacture your design.

According to the technology news outlet, the new system works similar to how an air conditioning unit would function: the coolers rely on the compression and expansion of a fixed volume of helium gas under pressure in a closed, self-contained circuit. Because the helium gas remains cold and does not condense into a liquid, the system avoids the possibility of quenching. While relatively rare in MRI machines, quenching—in which a malfunction causes the helium to convert back to gas and escape the cryogenic chamber, effectively demagnetizing the MRI magnet—can be both damaging to the machine and dangerous to anyone near the machine.

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