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Archive for the ‘engineering’ category: Page 64

Mar 9, 2022

Australian researchers announce lithium-sulfur battery breakthrough

Posted by in categories: biotech/medical, engineering

Researchers have restored muscle function in research animals with gene therapy. The approach could someday lead to new treatment methods in the elderly.


From pv magazine Australia

A team of researchers from Monash University’s Faculty of Engineering have redesigned the heart of a lithium-sulfur battery, creating a new interlayer that allows for exceptionally fast lithium transfer, as well as an improvement in the performance and lifetime of the batteries.

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Mar 7, 2022

Tinybelt Enables Infinite 3D Printable at an Affordable Price

Posted by in categories: employment, engineering

Traditional wisdom says that 3D printers are unsuitable for manufacturing. There are several reasons for that, including cost, part quality, and time, but labor is one of the most significant challenges. With conventional 3D printers, an operator must remove parts between jobs. That has a cost and slows down large production runs. Belt 3D printers solve this problem and also allow for infinite printing in one axis. Tinybelt, a new 3D printer on Kickstarter right now, makes this technology affordable.

The Tinybelt Kickstarter campaign is currently a third of the way to its $80,000 funding goal and needs your help to reach that goal. But you won’t want to contribute out of a sense of charity — you’ll want to back this campaign because Tinybelt has a lot to offer at an extremely competitive price. Tinybelt’s closest competition, the Creality CR-30 “3DPrintMill,” costs about $1,050. Tinybelt is available on Kickstarter right now for $499. Even at that low price, Tinybelt has a larger build volume than the competition.

As with other belt 3D printers 0, Tinybelt has one axis that is infinite. That means you can print parts as long as you want or print an unlimited number of parts—or both. The other two axes are 300mm and 200mm, which is almost twice the area of the Creality CR-30. A special nozzle made by Slice Engineering for the Mosquito hot end allows for printing at a shallower angle. Other specs are comparable, including the use of a dual-gear Bowden extruder.

Mar 7, 2022

Formlabs Launches Glass Filled Nylon 12 for SLS 3D Printing

Posted by in categories: 3D printing, biotech/medical, cyborgs, engineering

Not long ago, Formlabs launched a new ESD Resin specifically for applications that need to keep parts safe from electrostatic discharge (ESD). Now, the double unicorn has announced the latest member of its selective laser sintering (SLS) range of materials—the new high-performance Nylon 12 GF Powder. Good for 3D printing engineering and manufacturing functional prototypes and end-use parts that require thermal stability and structural rigidity, the newly launched material offers excellent stiffness and is the latest meant for use with the Formlabs Fuse 1 industrial SLS 3D printer, which was released last year.

Formlabs’ Nylon 12 GF powder makes it possible to 3D print parts that are thermally stable, and can maintain their dimensional accuracy under load. In the past, glass-filled Nylon materials have been used for a variety of applications, such as 3D printing a scale model, a prosthetic drum stick, a bike rack, loudspeakers, and even a bar! This particular material—one of many Formlabs is planning to introduce for its industrial Fuse 1 3D printer—is said to be a good choice for printing threads and sockets, strong jigs and fixtures, parts subjected to high temperatures and sustained loading, functional prototypes for compsite parts, and replacement parts.

Mar 7, 2022

Jacques Cousteau’s grandson is building a network of ocean floor research stations

Posted by in categories: engineering, food, habitats, space

Fabien Cousteau has a vision for how humans can live and work in the ocean. He imagines that long-term stays under the waves could be enabled through the construction of underwater habitats, which would look and feel like houses, as opposed to just sealed, submarine-like bubbles.

These habitats would have a galley, kitchen, workspace, and sleeping quarters, he describes. And of course, there would be windows, or viewports, to the outside world, and a front door in the form of a moon pool that will actually be on the bottom of the house. This would allow easy access into and out of the facility.

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Mar 7, 2022

America Was Wrong About Ethanol — Study Shows

Posted by in categories: energy, engineering, transportation

Using corn for fuel seems like a dumb idea in light of new research.

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Mar 5, 2022

The relations between science, engineering and science fiction

Posted by in categories: engineering, innovation

A new video I uploaded to youtube about the relations between science fiction, science and technology.


Presentation given at the Imaginative Fiction Writers Association.

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Mar 4, 2022

Temperature variation could help new touchscreen technology simulate virtual shapes

Posted by in categories: computing, engineering

High-fidelity touch has the potential to significantly expand the scope of what we expect from computing devices, making new remote sensory experiences possible. The research on these advancements, led by a pair of researchers from the J. Mike Walker Department of Mechanical Engineering at Texas A&M University, could help touchscreens simulate virtual shapes.

Dr. Cynthia Hipwell is studying at the finger-device level, while Dr. Jonathan Felts is researching friction in the interaction between single skin cells and the glass of the touchscreen interface. The two are bringing together their respective areas of expertise to apply friction principles at the to finger-device interaction mechanics.

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Mar 3, 2022

Electric Jet Engine Uses 3D Printed Compressor, Skips The Turbine Altogether

Posted by in categories: 3D printing, energy, engineering, transportation

Turbojet engines are an incredible piece of 20th century engineering that except for some edge cases, have mostly been replaced by Turbofans. Still, even the most basic early designs were groundbreaking in their time. Material science was applied to make them more reliable, more powerful, and lighter. But all of those incredible advances go completely out the window when you’re [Joel] of [Integza], and you prefer to build your internal combustion engines using repurposed butane canisters and 3D printed parts as you see in the video below the break.

To understand [Integza]’s engine, a quick explanation of Turbojet engines is helpful. Just like any other internal combustion engine, air is compressed, fuel is burned, and the reaction produces work. In a turbojet, a compressor compresses air. Fuel is added in a combustor and ignited, and the expanding exhaust drives a turbine that in turn drives the compressor since both are attached to the same shaft. Exhaust whose energy isn’t spent in turning the turbine is expelled and produces thrust, which propels the engine and the vehicle it’s attached to in the opposite direction. Simple, right? Right! Until the 3D printer comes in.

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Mar 3, 2022

Catalyst turns carbon dioxide into gasoline 1,000 times more efficiently

Posted by in categories: chemistry, engineering, particle physics

Engineers working to reverse the proliferation of greenhouse gases know that in addition to reducing carbon dioxide emissions we will also need to remove carbon dioxide from power plant fumes or from the skies. But, what do we do with all that captured carbon? Matteo Cargnello, a chemical engineer at Stanford University, is working to turn it into other useful chemicals, such as propane, butane or other hydrocarbon fuels that are made up of long chains of carbon and hydrogen.

“We can create gasoline, basically,” said Cargnello, who is an assistant professor of chemical engineering. “To capture as much as possible, you want the longest chain hydrocarbons. Chains with eight to 12 would be the ideal.”

A new catalyst, invented by Cargnello and colleagues, moves toward this goal by increasing the production of long-chain hydrocarbons in chemical reactions. It produced 1,000 times more butane—the longest hydrocarbon it could produce under its maximum pressure—than the standard catalyst given the same amounts of carbon , hydrogen, catalyst, pressure, heat and time. The new catalyst is composed of the element ruthenium—a rare transition metal belonging to the platinum group—coated in a thin layer of plastic. Like any catalyst, this invention speeds up chemical reactions without getting used up in the process. Ruthenium also has the advantage of being less expensive than other high-quality catalysts, like palladium and platinum.

Mar 3, 2022

Tesla Said It Was Possible, Now Wireless Electricity Is Finally Becoming Reality

Posted by in categories: energy, engineering, internet, space, sustainability

Nikola Tesla’s vision of the world is about to become reality.

#engineering

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