I wonder if this isn't possibly the beginning of a trend: 3D printer manufacturers making smaller versions of their machines with smaller build volumes that still can use complex 3D printing technologies. This one's aimed at a the growing number of AM labs in various universities for R&D, but also to train the next generation of engineers in the technology. And the fact that this university is a member of NAMII, which aims to bring together academia, government agencies and commercial interests to further the technology, seems significant to me. What do others think?
A new compression molding compound material combines the light weight, strength, and rigidity of carbon fibers with the flexibility and lower cost of glass materials in a composite compatible with automotive production.
Plastic bearings are real and millions of them are in use doing heavy-duty jobs we used to think only metals could do. Some of Germany-based igus's bearings are traveling around the world as functional parts in a car to demonstrate what they can do.
Baxter showed off his 2.0-derived moves at ATX West this year. The big red guy still looks pretty much the same, but has some new abilities, mostly due to software. The research robot version is now being used in corporate R&D departments as a design platform.
End-production using 3D printing, including objects made of multiple materials in one pass, is getting closer to reality as we saw on the exhibit floor at the recent Pacific Design & Manufacturing Show.