3D Printing and Advanced Material for Electronics Manufacturing

3D Printing and Advanced Material for Electronics Manufacturing

By Laura Davis, Manufacturing Technology Insights | Thursday, January 07, 2021

If electronics manufacturers want to remain competitive in highly advanced industries, advanced material 3D printing can innovate new products and get to market quickly.

FREMONT, CA: Printed electronics have a significant share in the electronics fabrication market due to its advantages in high-throughput production and customizability concerning material support and system process. The core objective of additive manufacturing technologies is to allow high performance, advanced parts and components. Hence, the development of more advanced materials is a core element in evolution. Advanced electronics require innovative materials processing and fabrication processes to develop fully-functional devices for applications. As the range of advanced materials for electronic applications expands, new processes will be developed to move these devices out of the lab and produce new products at scale. Read on to know more.

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Electronics have lagged behind other sectors in terms of advances in new materials processing methods, but 3D printing helps fill the gap between the use of advanced materials and electronic devices. Advanced materials in 3D printing include several advanced polymers, nanoparticles, ceramics, and even graphene composites. These materials allow traditional and advanced electronics applications while taking benefit of the design and fabrication flexibility of 3D manufacturing systems.

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The benefit of adopting these advanced materials in 3D printing processes is the design freedom provided to designers. Additive processes enable new mechanical, optical, and electronic products to be fabricated with nearly any geometry, which frees product designers from several manufacturing constraints. When coupled with the novel material properties of advanced materials in the above areas, engineers can rapidly fabricate fully-functional devices while experimenting with different design choices.

High-speed digital devices require substrate materials with near-zero dispersion throughout the relevant bandwidth and high thermal conductivity. These are particular characteristics that are complex to produce in commercial laminates. As the range of useful processes and advanced materials continues widening as part of the drive towards Industry 4.0, electronics designers will have more options to design and fabricate new products. These systems assist in hastening electronics R&D cycles as new products can be instantly fabricated, tested, and produced at scale.

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