Lifeboat Foundation: Safeguarding Humanity
Toggle light / dark theme

Blog

Category: 3D printing – Page 123

BAM launches robo printer

BAM has teamed up with Universe Architecture to launch a ‘robo printer’ that can create free-form buildings in stone and concrete.

The ‘building machine’ is described as the first to link free-form print technology to automotive industry robotics. It is designed to make free-form architecture possible, as well as enable the creation of complex ornamental exteriors.

In 2013, architect Janjaap Ruijssenaars of Universe Architecture had plans for the creation of a building without beginning or end, Landscape House, using a 3D printer. The 3D Builder machine entered service yesterday and is starting with the construction of a 1:4 scale version of Landscape House at FabCity, a temporary sustainability campus in Amsterdam.

You’ll soon be able to 3D print your own Deus Ex inspired prosthetics

Together, Eidos Montreal, Square Enix, and OpenBionics are working on the development of two Deus Ex inspired bionic arms, which are set to be finished in 2017. The first model is inspired by Adam Jensen’s own bionic arm, and the second is described as the Deus Ex Universe arm. The 3D illustrations of the arms are undeniably stunning, as Vu added that “we wanted something to touch upon high fashion…something that looks very slick and you could be very proud to wear.”

Continue to read on http://www.3ders.org/

#obminitiative

Researchers: 3D Printing Offers Great Benefits for Water Treatment Industry, But Progress is Slow Thus Far

Interesting; however, I will be interested still how QC and 3D printing can converge and possibly address challenges such as this one, mass production of synthetic diamonds, cell circuitry, etc.

https://3dprint.com/137952/3d-printing-water-treatment-industry/

You might be surprised at how often 3D printing and water intermingle. After all though—as you’ll well remember if you try to go without it for a few hours—water is our life force. And as innovative 3D technology is used at the hands of researchers and innovators around the world to make positive transformations in nearly every industry, surely water should be included.

Whether we are discussing how to recycle water bottles in an attractive manner, adopt new methods for desalination to increase worldwide accessibility, or actually using 3D scanners to detect corrosion in older water pipes in the UK, the seeds have been planted for allowing 3D technology to play a substantial and versatile role in how we deal with water in the future, on many levels.

3D bioprinting Pioneer Organovo Announce 2016 financial results

For every star performing biotech, life sciences or innovative 3D printing company there are another 9 where investors would have been better off keeping their cash under a mattress.

As Organovo report their first full year operating on a commercial basis we look for clues as to which category they might fit into. With more than 25 patents secured and another 80 pending, does the current share price and today’s published financial accounts tell the full story?

Organovo increased total revenue from $570 thousand in 2015 to $1.5 million for 2016. However, losses also increased from $30.8 million to $38.6 million. Although yet to turn a profit, Organovo were always going to generate a sizeable amount of text in the 3D Printing media and beyond. The promise of combining biophysics, developmental biology and of course 3D printing to advance healthcare and life sciences is an attractive proposition.

Cody Wilson: the man who wants Americans to print their own 3D guns

Wow — scary. Not scary for law abiding citizens to do this; scary due to criminals & terrorists. And, we have seen the ammo and high quanity gun clip already produced as well.

The 28-year-old is the face of open-source 3D gun design, an online movement of enthusiasts who use 3D printers and machining tools to build their own homemade weapons – ones that can shoot very real, and very deadly bullets.

Wilson isn’t some gun loon on an online soapbox; he is a well-educated, well-spoken, very argumentative young man who’s as responsible for creating his press portrayal as the journalists who’ve written about him. “I’m now more and more of a self-caricature,” he tells me. “I’ve had to become a fanatic over the past three years just to move the ball another three yards.”

Tennessee startup plans to create 3D printed house

Wishing them luck.

Tennessee -based Branch Technology has announced it will begin construction of a 3D-printed house in 2017. Designed by Honolulu-based WATG, the project was initiated for the Freeform Home Design Challenge, which asked participants to design for Branch’s Cellular Fabrication (C-Fab) 3D printing technology. The small house designs were required to be between 600 and 800 square feet.

Branch’s C-Fab technology involves 3D printing carbon-fiber-reinforced ABS plastic with a large robotic arm. The resulting formwork can then be covered in more traditional building materials, such as concrete or foam. Instead of the typical completely 3D printed additive technique, C-Fab uses an algorithm to formulate an interior framework for the structure.

WATG’s design, entitled Curve Appeal, will be built at Branch Technology’s lab in Chattanooga, Tennessee. The house is comprised of a curving shell around an open plan. The form of the building also provides a car port. The interior of the house is divided up with class walls and a solid core.

Pairing nanodiamonds with other nanomaterials could enable huge advances in nanotechnology

Very promising. I imagine 3D Printers being able to create synthesize diamonds will be a very profitable business to get in to because of the stabilizing benefits that the nanodiamonds bring to Quantum Computing and nanotechnology in general.

Nanomaterials have the potential to improve many next-generation technologies. They promise to speed up computer chips, increase the resolution of medical imaging devices and make electronics more energy efficient. But imbuing nanomaterials with the right properties can be time consuming and costly. A new, quick and inexpensive method for constructing diamond-based hybrid nanomaterials could soon launch the field forward.

University of Maryland researchers developed a method to build diamond-based hybrid nanoparticles in large quantities from the ground up, thereby circumventing many of the problems with current methods. The technique is described in the June 8, 2016 issue of the journal Nature Communications (“Nanostructures for Coupling Nitrogen-Vacancy Centers to Metal Nanoparticles and Semiconductor Quantum Dots”).

electron microscope image shows a hybrid nanoparticle consisting of a nanodiamond (roughly 50 nanometers wide) covered in smaller silver nanoparticles

This electron microscope image shows a hybrid nanoparticle consisting of a nanodiamond (roughly 50 nanometers wide) covered in smaller silver nanoparticles that enhance the diamond’s optical properties. (Image: Min Ouyang)

/* */