The Long Arms of BASF Reach Farther

By on November 5th, 2018 in Corporate

Tags: , , , ,

 Illustration of Photocentric’s new machine concept [Source: US PTO]
Illustration of Photocentric’s new machine concept [Source: US PTO]

Another day, another 3D printing partnership from BASF.

This time the industrial chemical giant inked a deal with UK-based Photocentric to develop industrial 3D printing processes based on resin processes.

Photocentric is one of the very few companies in the world that manufacture photopolymer resin, the feedstock used in every SLA-based 3D printer. Their resin products are typically relabeled by various other brands; if you’ve used a resin 3D printer, there’s a good chance you’ve actually been using Photocentric materials.

But then, BASF is another producer of polymers, resins included. They are vastly larger than Photocentric, and have a catalog of polymer products similarly larger. How can two materials makers develop industrial 3D printing?

The answer is this:

“The two companies have combined to work together to provide solutions for specific applications to enable custom mass manufacture of functional parts in scale and at acceptable prices. BASF will provide functional resins that are needed for specific industrial uses. Photocentric will manufacture the large format industrial printers.”

Aha – BASF is working on the materials, while Photocentric is making the printers.

Is this a switch for Photocentric, who made their fame through production of materials? Yes and no. We’ve previously seen attempts by Photocentric to produce desktop-sized SLA 3D printers, which, of course, used their resin.

These machines were billed as demonstration machines to help develop sales of their main photopolymer products. However, the company produced several increasingly more sophisticated machines over the past couple of years.

I always wondered how much success they would have marketing these machines, as they had to compete with countless other startups also marketing SLA-style 3D printers, some with very interesting features.

But now things become a bit clearer; it seems these machines might have been to hone their skills at building 3D printers that could have led to the agreement with BASF. But the printers in question are by no means of the desktop persuasion.

No, these are larger industrial-sized machines. They explain:

“The Maximus with a 700 x 893 x 510mm build volume generated from a 40” HDTV and the Accumulo capable of making 16 high resolution images from mobile phone screens laid out in a single build platform. They are all solutions designed to make lots of small custom parts simultaneously creating industrial volumes of custom items.”

It seems that these machines’ designs are specifically based on a recent patent (US20180141268) assigned to Photocentric. This patent describes a resin-based 3D printer that uses a common phone or TV monitor as the non-UV light engine, with a simple silicon coating to reduce sticking. (See image at top.) Interestingly, the patent specifically mentions the peculiar non-UV reacting resin being manufactured by BASF. Evidently the two companies have been working on this concept for some time.

From the sounds of their announcement, these machines are not merely designs, but have been in operation producing parts. We hope to see these samples, and perhaps even the machines that made them at formnext a few days from now.

This is still a curious arrangement. I’m wondering if this signals a shift in strategy by Photocentric away from the materials market and towards the printer manufacturing business. Perhaps this will become known in future weeks.

Meanwhile, for BASF this is yet another deal in the 3D print space, where they have made many deals with many different players in many forms. It seems their belief in 3D printing’s future is still quite solid.

Via Photocentric

By Kerry Stevenson

Kerry Stevenson, aka "General Fabb" has written over 8,000 stories on 3D printing at Fabbaloo since he launched the venture in 2007, with an intention to promote and grow the incredible technology of 3D printing across the world. So far, it seems to be working!