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Category: 3D printing

Polish company SatRevolution have announced plans to create a new satellite production plant in Poland and use 3D printing to develop the country’s first satellites. SatRevolution will partner with APWorks to produce a prototype of the Światowid satellite. Airbus subsidiary, APWorks, will provide metal additive manufacturing solutions to the Polish developers.

The Światowid is intended to measure cosmic radiation and electromagnetic interference. To facilitate launching, the design was developed in line with the cube-sat parameters. Measuring 10 x 10 x 20 cm, the satellite will weigh 2 kg.

The project will reportedly require $50 million to complete, with the satellite production facility planned to be built near the Polish city of Wroclaw.

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Yep; we know and we can even design them to make their own.

You could now 3D print your own tiny walking “bio-bots” powered by living muscle cells and controlled with electrical and light pulses, thanks to a new gennext robot ‘recipe’ developed by scientists.

This can result in exciting possibilities where these “systems could one day demonstrate complex behaviours including self-assembly, self-organisation, self-healing, and adaptation of composition and functionality to best suit their environment,” researchers said.

“The protocol teaches every step of building a bio-bot, from 3D printing the skeleton to tissue engineering the skeletal muscle actuator, including manufacturers and part numbers for every single thing we use in the lab,” said Ritu Raman, a postdoctoral fellow at the University of Illinois at Urbana-Champaign in the US.

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Early probes are one thing, but can we build a continuing presence among the stars, human or robotic? An evolutionary treatment of starflight sees it growing from a steadily expanding presence right here in our Solar System, the kind of infrastructure Alex Tolley examines in the essay below. How we get to a system-wide infrastructure is the challenge, one analyzed by a paper that sees artificial intelligence and 3D printing as key drivers leading to a rapidly expanding space economy. The subject is a natural for Tolley, who is co-author (with Brian McConnell) of A Design for a Reusable Water-Based Spacecraft Known as the Spacecoach (Springer, 2016). An ingenious solution to cheap transportation among the planets, the Spacecoach could readily be part of the equation as we bring assets available off-planet into our economy and deploy them for even deeper explorations. Alex is a lecturer in biology at the University of California, and has been a Centauri Dreams regular for as long as I can remember, one whose insights are often a touchstone for my own thinking.

By Alex Tolley

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3D printing is profoundly changing not just how we make things, but how we design them as well. As well as saving materials, time, water and waste, it is also opening up possibilities for new products and is set to unleash a wave of innovation in the industrial sector.

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It looks like Self Driving cars may create a US organ shortage that finally acts as the Kick in the Ass to force stem cell generated organs on to the market. Enough of the ‘in the future’ we might have these Nonsesne.

Science, however, can offer better a better solution.

The waiting lists for donor organs are long — 120,000 people on a given day — and ever increasing. With fewer donor organs to go around, researchers are working on other ways to get people the parts they need. With help from 3D printing and other bioengineering technologies, we will eventually be able to grow our own organs and stop relying on donors.

Related: How Technology is Tackling Joe Biden’s Cancer Moonshot

“It’s like a race in which there’s multiple different players, but no matter which one of them winds up winning, it’s good,” says Ali Khademhosseini, a bioengineer at Harvard Medical School.

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Glad Intel is moving this dial on their side as I have said for over a year they must do this to remain relevant. I would also encourage them to enter into a large 3D/4D printer partnership to develop a high speed printer that can print diamoide particles as they will need this bi-product to ensure stability in their chips and any other QC data storage and transfer processing. I do say they will need a group focused on Quantum Bio R&D as we begin to progress more of a integrated tech-bio system approach.

Intel realizes there will be a post-Moore’s Law era and is already investing in technologies to drive computing beyond today’s PCs and servers.

The chipmaker is “investing heavily” in quantum and neuromorphic computing, said Brian Krzanich, CEO of Intel, during a question-and-answer session at the company’s investor day on Thursday.

“We are investing in those edge type things that are way out there,” Krzanich said.

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Add RadioBio/ Quantum Biosystem technology and this will be perfect.

Soft robotics researchers at the University of Wollogong (UOW) in Australia have used 3D printing to build a realistic robotic hand that can be controlled by brain signals and which has a surface texture similar to human skin.

Dr Rahim Mutlu (left), Professor Gursel Alici, and their 3D printed hand collection

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