Getec Facebook Page Getec on Linked In Getec on Twitter Getec on Pinterest Getec on Google + Getec on Youtube
Getec Phone Number Aluminum Extrusion Companies


Full Line of Turnkey Heat Sink Manufacturing and Services

Getec Industrial provides a full line of turnkey heat sink manufacturing services and technical information services designed to provide complete thermal management solutions to our customers. Typical applications include the semiconductor industry, power supply modules, LED lighting and amplifiers.

Custom Heat Sink Design

Custom heat sinks are cost effective solutions and we provide quality heat pipe design and solutions as one of North America's leading extruded aluminum manufacturers.

Custom Aluminum Extruded HeatSinks

Aluminum extruded heat sinks are the most cost-effective solution for the majority of electronic cooling applications. As extruded aluminum manufacturers, Getec customizes your heat sink design and extrusion profile to specifically fit your needs.

Extruded aluminum heatsinks are ideally suited for high volume productions. Additionally, when limited secondary processing is needed, extrusions can be a more cost-effective production option.
Custom Solutions
As extruded aluminum manufacturers, Getec designs and manufactures custom heat sinks and specific thermal solutions. We provide tailored thermal management solutions that are optimized for each particular application. We will work with you throughout the development process to meet your cost and performance requirements.
Investment Casting
Investment Casting is a cost-effective way of producing complex heat sink designs quickly and efficiently. Investment Casting is well suited for producing prototypes and short-to medium volume runs. When combined with Rapid Prototyping technologies, Investment Casting can typically deliver functional metal prototypes in 1-3 weeks.
Die Cast
Die Casting is optimal for high volume heatsink production in high power applications where component weight is not critical. By using in-house technologies, die cast prototypes and rapid tooling can be done without having to invest in hard tooling.
Precision Forging
Precision Forging uses special open die tooling and intense pressure to form thin-sectioned, high precision heatsinks. High aspect ratios can be achieved using Precision Forging with the ability to accommodate fin thicknesses as thin as 0.020" and fin heights over 1" tall for the same base size. Copper inserts may be incorporated into the base for more effective heat spreading.
Skived Fin
The Skived Fin process combines special cutting tools and a controlled shaving technique to produce heatsinks from a single block of material, such as copper or aluminum. The typical result is a thin-finned heatsink with a dense population of uniformly shaped and distributed fins. In certain applications, Fin Skiving can offer cost saving, high-efficiency cooling alternatives to high aspect ratio extrusions and folded fin assemblies.
Thin Fin Extrusions
Thin Fin Extrusions provide an ideal combination of small package volumes and large surface areas for optimal cooling performance. This unique process typically offers greater dimensional fin control than competing 'thin fin' manufacturing approaches. In most applications, Thin Fin extrusions can deliver more efficient airflow than conventional extruded designs.
High Aspect Ratio Aluminum Extrusions
Aluminum extrusions have conventionally been the predominant approach for heat sink production. Most extruders produce "commodity" products with less than 6:1 aspect ratios. Getec specializes in providing high aspect ratio extrusions with achievable aspect ratios generally ranging from 20:1 to 30:1.
Stamped Fin
Stamped Fin heatsinks are made from sheets of aluminum or copper where the metal is stamped into a particular configuration based on the intended application. For maximum design flexibility, fins can be stamped into a broad range of geometries and thicknesses. Optimal for medium to high volume programs, Stamped Fin Technology offers an economical approach for producing high efficiency, lightweight heatsinks in small package sizes.