The plating is applied on the one side with a thin layer of aluminum
alloy (in the case of aluminum brazing) that has a slightly lower melting point than the aluminum cover and base plates.
With the plated side sandwiched between the cover and base plates, the assembly is then heated in a vacuum brazing furnace at a temperature in the range of 580 to 600°C which melts the thin layer of aluminum alloy and generates a brazed joint between the cover and base plates.
This type of braze bond then produces an extremely reliable
and secure joint between the cover and base plates.
Fully automated vacuum braze furnaces
built to DAU’s specifications braze cooling plate assemblies to pressure tight, stress and vibration resistant coldplates with maximum durability and reliability
In-house designs accompanied by complete machining and testing facilities permit a wide variety of cooling plate solutions to meet our customer’s specific needs
The vacuum brazing process ensures trouble free operation even under very challenging operating conditions.
With our combination of experience, knowledge and commitment, our team of engineers will design the cooling plate solution to meet your specific performance, space and cost requirements.
Advantages of vacuum brazed coldplates:
- Optimum design of the cooling path based on the layout of the semiconductors
- Lowest possible thermal resistances
- Leak free, high strength and high mechanical load carrying capacity with burst pressures up to 1150 psi
- No structural changes in the material
- Clean parts without residual flux
- High reliability, durability and life cycle
- Low distortion due to uniform heating and cooling during brazing process
Thermal Resistance Curve VBA-110-300: