Print this page
3D Printing in 2020 Complexity of 3D printed geometry, different materials for different applications and such, are a few of the several innovations we get each year, this one was no exception (formlabs.com)

3D Printing in 2020

In 2020, 3D printing persistently advanced its path towards industrialization and innovation. The developments that pushed 3D printing to where it is today will continue further into 2021, indicating that new projects will surge, technological necessities will need to be satisfied, and new challenges will need to be overcome, all bringing forward new applications for 3D printers and expanding towards new horizons.

Let’s go through what the 2020 brought to the 3D printing world and what it implies for the future.

3D printing during the pandemic

The Coronavirus pandemic brought challenges to almost every single country, the most difficult where how to manage and stop the spread of the virus and how to get enough medical supplies (valves for reanimation devices, etc.), we saw a fast response of the global 3D printing community aiding to these specific problems.


Ventilator valves where really scarce during the COVID19 outbreak, and thus the 3D community ran to model and print working prototypes to be used in hospitals. (REUTERS)


The COVID-19 pandemic has also resulted in a significant shortage of personal protective equipment (PPE) worldwide. Professional additive manufacturing providers, makers, and designers in the 3-dimensional (3D) printing community have posted free COVID-19–related 3D printer designs on their websites.

In reaction to the acute shortage of protective wear for medical personnel during the pandemic situation, professional additive manufacturing providers, makers, and designers in the 3D printing community quickly developed and mass-produced protective face shields.


Prusa3D came out with a final design called Prusa PRO Face Shield, which meets the standard of EN 166:2001 for protection against drops and sprays (protection class 3) . (prusa3D.com)



3D printing communities across the world became a massive driving force in the effort to produce protective wear for those, who need it the most. (prusa3D.com)


Development for 3D printed structure on the Moon

ICON is a company that has won NASAS 3D printed habitat challenge, and has become the selected to develop a fully operational 3D printer capable of sustaining the harsh conditions of the moon’s surface, this while printing enhanced lunar structures and building a sustainable site for Off-Earth exploration. As part of its Artemis program, NASA is attempting to return astronauts to the Moon by 2024, and it has already used 3D printing to develop rocket engine part.


“Building humanity’s first home on another world will be the most ambitious construction project in human history and will push science, engineering, technology, and architecture to literal new heights,” said Jason Ballard, Co-founder and CEO of ICON. (iconbuild.com)


NASA has pointed that, through the Artemis program, the Moon will be the first Off-Earth site for sustainable surface exploration. Building a sustainable presence on the Moon requires more than rockets. Robust structures will need to be built on the Moon to provide better thermal, radiation, and micrometeorite protection.

Direct-to-Textile 3D Printed Clothing

3D printing continues to offer fashion designers greater freedom in creating complex geometries with fabric, the European Union has funded a research project called Re-FREAM, an effort uniting artists, designers, and scientists as they combine 3D printing and textiles to rethink the manufacturing process of the fashion industry.

The Re-FREAM goal is to develop new concepts for the future of fashion by means of new processes and aesthetics that are inclusive and sustainable.

Stratasys first introduced its PolyJet technology back in January 2020, a technology that creates objects by jetting fine droplets of photopolymers, materials that solidify when exposed to UV light. Last year, Stratasys started working with fashion designers to show their PolyJet direct-to-textile printing technology, from design through to production, demonstrating the possibility for localized manufacturing and mass customization.


PolyJet 3D Printers are scaled to meet diverse needs in capability and production capacity. The printers fall within two groups: single material at a time and multi-material simultaneously. (Stratasys)


This collaboration follows closely not only of their unveiling the new ability to 3D print onto regular textiles, but also onto sustainable fabrics in vivid colors, creating a shimmer effect when the clothing is in motion, while maintaining the comfortability of regular fabric outfits.


Japanese-style kimono designed by Ganit Goldstein using direct-to-textile PolyJet multi-color 3D printing. (Stratasys)


Another advantage of Stratasys PolyJet™ 3D Printers is that they are certified by Pantone, as meeting the PANTONE validated standards of color quality and realism. Backed by this authentication, PolyJet solutions are perfectly aligned to meet the strict requirements of design studios as they match the design-to-manufacturing process.


This validation allows for simple and accurate color communication between designers and manufacturers. (pantone.com)


High-volume 3D printing is around the corner

At the moment, 3D printing is generally viewed as a technology suitable for low level to mid-volume production. That it will most likely be the case in 2021, but every year we also see more opportunities and developments that will help us achieve higher-volume production with 3D printing.

Conveyor belt 3D printers, have max printing size limitations on X-Y axis but with a theoretically infinite sized z-axis print size or even a continuous production of 3D printed parts, the limitation of this technology is its speed and supported materials, thus not a viable alternative for High-volume 3D printing.


Continuous production of 3D printed parts is a possibility with this technology, it isn’t required that all the printed parts are of the same model. (Blackbelt3D)


Another approach to achieve a high-volume production of 3D printed parts is deploying hundreds of 3D printers and making a Printing Farm, large scale 3D printing is generally less expensive than injection molding below an average of 50000 units/parts, the downside of this continues to be the manufacturing speed (of each 3D printer) and the increase in control required for all the deployed printers, this to ensure quality and reduction of errors.


The whole point of a 3D printing farm: On-demand, efficient manufacturing. (all3dp.com)


On the long run, the on demand nature of additive manufacturing can make production cheaper than other large volume processes, it even has the advantage of customization and personalized production batches, as each printer can lay-out different 3D models, another advantage is the no tooling costs involved, meaning products are brought to market at a much faster rate.

Published in 3D Printing
Paulo Núñez

Related items