Steel is ubiquitous in our daily lives. We cook in stainless steel skillets, ride steel subway cars over steel rails to our offices in steel-framed building. Steel screws hold together broken bones, steel braces straighten crooked teeth, steel scalpels remove tumors. Most of the goods we consume are delivered by ships and trucks mostly built of steel. Continue reading “Harvard researchers design most durable anti-fouling material to date”
Anglian Water has become the first UK water company to explore the future of 3D printing technology. This was achieved through collaboration with The Sheffield Water Centre, an interdisciplinary research centre at the University of Sheffield, dedicated to solving major challenges in the water sector.
This project saw engineers in the University’s Departments of Mechanical Engineering and Civil and Structural Engineering working in partnership with Anglian Water to develop ways in which the emerging technology of 3D printing, also known as additive manufacturing, could be used to produce vital parts more efficiently and at a lower cost. Continue reading “Anglian Water, Sheffield University launch 3D printing trial”
At first glimpse, the world of 3D printing does seem magical, as do the projections for the future. This includes every level, from manufacturing to the desktop. It would seem that one day, thanks to many thousands of innovators creating and competing around the world, there will be a 3D printer and a material for meeting our every personal and very customized need. With new processes in manufacturing and production that offer greater quality, speed, and affordability, our lives will become different–and better–due to greater efficiency and the ability to be more independent and self-sustainable. And the bottom line is, we will do a lot less waiting. Continue reading “New Compact Printer Can 3D Print a Building in One Day (Video)”
With 3-D printing changing the world, one Northwestern University undergraduate spent this past summer in the lab doing his part to use this exciting new technology to create efficient and economic energy.
Nick Geisendorfer won an undergraduate research grant to employ 3-D printing technology to test the possibilities of making a particular kind of fuel cell more efficient and marketable.
He thinks solid oxide fuel cell (SOFC) technology, which produces electricity from the electrochemical oxidation of fuel without burning, could be an answer in the race to reduce carbon emissions. Continue reading “Research Opens Door to New Fuel Cell 3D Printing Techniques”
We’ve heard of new materials being developed for 3D printing use in order to enhance the quality of additively manufactured products, but two researchers at the Missouri University of Science and Technology have been developing a way to use 3D printing technology in order to create wholly new materials. Continue reading “Researchers Use 3D Printing Technology to Create New Materials”
“A bridge to the future in the ancient capital of innovation”
With their robots that 3D “draw” in steel, MX3D will print a bridge over the water in the center of Amsterdam. The Dutch company researches and develops groundbreaking, cost-effective robotic 3D printing technology. MX3D can 3D print beautiful, functional objects in almost any form. Much larger and more efficiently than possible until now, using sustainable materials. Continue reading “Dutch startup MX3D to 3D print steel bridge in Amsterdam”
On Hackaday three years ago, architect Ekaggrat Singh Kalsi–a designer who also 3D prints with light–shared a robotic writing clock, also referred to as the Doodle Clock, that he has now updated and posted for all interested parties. The biggest improvement is with how time is marked by the clock. Continue reading “Doodle Clock: Make Your Own 3D Printed Robotic Writing Clock (Video)”
A couple of weeks back, I wrote about the Snappy, a new RepRap 3D printer that consists of over 70% 3D printable parts. As the RepRap project’s stated goal is to eventually develop a fully self-replicating 3D printer, the Snappy would mark a significant step towards that goal. After the article, I was made aware of the Dollo 3D printer, a project by a father-son team that may be even more self-replicating than the Snappy. With instructions available online and an upcoming Kickstarter, the Dollo 3D printer is something to look out for and will hopefully bring us closer to true self-replication. Continue reading “Dollo 3D: The next step toward a completely self replicating machine (Video)”
NASA’s big announcement this week that it had confirmed the existence of flowing water on the surface of Mars isn’t just hugely significant for the prospects of finding life elsewhere in our Solar System – it also tells us more about the nature of water on the red planet. Continue reading “3D-Printed Ice Habitat Concept for Mars Wins NASA 3D-Printed Habitat Design Contest”
New York state will invest $125 million to build the world’s first industrial-scale 3D printing facility as part of a private-public partnership with Norway’s Norsk Titanium AS, according to sources familiar with the deal.
A groundbreaking for the plant is expected in late October or November in Plattsburgh, New York, about 160 miles north of the state capital of Albany, said the sources, who could not speak publicly before an announcement by the state. Continue reading “New York State to Invest $125 Million in Building World’s First Industrial-Scale 3D Printing Facility”