How can 3D printing be useful for electronic?

The additive manufacturing technology is quite useful for electronic applications.

Some of our customers with electronic projects are for example using our 3D printing service to manufacture enclosures. Or, for example, Simusolar, one of our clients, is using 3D printing to manufacture parts of circuit boards.

For you electronics project, 3D printing can be useful to develop prototypes, but also to produce. Indeed, if you need a prototyping solution, this method will allow you to make much iteration at a lower price and will be perfect to help you to develop your final product.

Conductive 3D printing: Offering new possibilities

Several experiments have been made to create conductive 3D printed parts. This innovation could allow you to create 3D printed devices like LED, or touch sensor. But it could be involved in bigger projects, in soft robotics, 3D electronics, and also for communication devices such as 3D printed Near Field Communication (NFC) antennas.

Let’s see what the viable possibilities to 3D print conductive devices are, using new 3D printing material or new printing techniques.

Conductive 3D printing materials


There are some conductive materials that could totally revolutionize new electronic constructions. We already told you about graphene, the wonder material in 3D printing. This material has great intrinsic properties. Indeed, it is not only one of the most resistant materials, it is also electrically conductive!

The structure of this material makes it electrically conductive. Graphene is the structural element of many forms of carbon. Carbon atoms are arranged in a honeycomb structure and there is a single free electron in each atom.

This way, the material can transmit currents through these free electrons. Conductive graphene filaments could be a great solution to create functional electrical elements. Keep in mind that this material is still less conductive than metals such as iron or copper.

ABS and PLA filaments

Some electrically conductive filaments have been developed using some ABS or PLA material, like graphene PLA filament. Regarding the strength of this material, it is more flexible than traditional PLA, but has less layer adhesion.

For the moment, it seems that the only conductive 3D printing materials available are filaments, which can be used on desktop 3D printers. Soon, bigger professional 3D printers could be able to print with these electrically conductive materials, but to begin with, these first options are offering great possibilities.

Indeed, these filaments could be useful in the development of wearable electronics, making it possible to create small electrical circuits.

Hydroprinting conductive patterns

Here is another 3D printing method to develop conductive parts: hydroprinting.

A paper in Advanced Materials Technologies published by Professor Shlomo Magdassi with some other researchers from The Hebrew University of Jerusalem and The Nanyang Technological University in Singapore, these researchers actually found a solution to 3D print conductive patterns. Using hydroprinting on a 3D printed part is allowing to manufacture a functional 3D printed conductive part. This process enables to print several layers circuits. It only requires repeating the same printing process for as many layers as needed.

3D printing conductive elements in the future

All of the experiments made to create conductive systems using the 3D printing technology are really promising. Nanotechnology and metal 3D printing could soon allow to print really small conductive components, circuit boards and electrical circuits. Hydroprinting and new conductive materials are all offering brand new possibilities and could make it possible to create fully 3D printed electronic devices.

As you can see additive manufacturing has a lot to offer for electronics. It could become quite common to 3D print electrical elements. If you have an electronic project, but you don’t know what software you could use to start it: here is our selection of the best CAD software for electronics.

Source : sculpteo


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