Alumina PCBs are a type of ceramic PCBs that use aluminum oxide (Al₂O₃) as their substrate. In this post, you will get to know about alumina PCBs, including their characteristics, pros, cons, and applications.
Alumina PCBs require high purity Al₂O₃ materials. Alumina has many isomorphic crystals, and alumina PCBs use α-Al₂O₃.There are 75%, 96%, and 99% alumina substrates. The higher purity, the smoother surface, denser appearance, and lower dielectric loss. And of course, the higher price. To make a balance between quality and costs, PCBONLINE uses 96% alumina substrates for alumina PCB manufacturing.
The most important characteristic of an alumina PCB is its thermal conductivity, which ranges from 15W/mK to 50W/mK. When the LED or IC generates a lot of heat, the heat is transferred to the alumina circuit board directly and quickly. Using the alumina PCB, there is no need for an insulating layer as it already achieves good thermal dispassion.
Another property of the alumina PCB is the high thermal withstand. The melting point of the 96% alumina is 1400°C, and for the 99% alumina, it is 1600°C. However, the melting point doesn't stand for the PCB maximum using temperature. If the alumina PCB is multilayer, and the manufacturer uses PP (polypropylene) to connect the two alumina layers, the PCB's overall maximum using temperature is reduced, as PP melts at lower temperatures. If the manufacturer adopts the high-temperature sintering lamination method, the two ceramic layers directly bond, and the thermal withstand is not affected. But in whatever lamination method or manufacturing process, an alumina PCB can work properly at 300°C.
Note
Ag, Ag-Pd, and low-melting-point glass can be added to the Al₂O₃ substrate. If we do so, the dielectric constant can be lower, but the temperature for sintering the hybrid ceramic substrate is higher, and so will the manufacturing costs.
Compared with other ceramic PCB substrates, beryllium oxide (BeO), alumina is safe. BeO has a much higher thermal conductivity than alumina, but it is toxic. While alumina has high biocompatibility, in other words, safety.
Besides, alumina PCBs have excellent hardness and electrical insulation. For your reference, below is an alumina PCB specifications table made by PCBONLINE.
I find that the above-mentioned characteristics of alumina PCBs are the pros, but I need to list their pros and cons still. To be precise, the pros of the alumina PCBs are:
In regards to the cons, alumina PCBs have the same cons as all of the ceramic PCBs do:
No matter what lamination method or manufacturing process the manufacturer adopts, the alumina PCBs are processed with complicated procedures at high temperatures. The below DPC process image shows how the conductive layer is plated onto the ceramic substrate surface at PCBONLINE. From it, you can understand how complex alumina PCB manufacturing is.
Alumina is a material having balanced mechanical performance parameters, and it is cheaper than other ceramic materials such as aluminum nitride and BeO. So alumina PCBs are used more commonly than other ceramic PCBs. Its applications include:
PCBONLINE is a leading advanced PCB manufacturer. The DPC (direct plating copper) technology is used by PCBONLINE to manufacture alumina PCBs. Below is why PCBONLINE is considered a priority alumina PCB manufacturer:
Please take a look at these alumina PCBs and products manufactured by PCBONLINE.
Alumina PCB No.1
Alumina PCB No.2
Alumina Substrate DOB LED
This post gives an introduction to alumina PCBs including the characteristics, pros, cons, and applications. Alumina PCBs are replacing aluminum PCBs and copper-based PCBs in high-power applications. If you are looking for ceramic printed circuit boards and assembly, choose PCBONLINE with superior quality!
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