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Archive for the ‘materials’ category: Page 206

Apr 27, 2020

New 3D Concrete Printer Could Be a Major Advancement in Construction

Posted by in categories: 3D printing, materials

By more accurately printing complex geometric patterns, this new 3D printing method makes construction projects more efficient with less waste and faster time to market.


A new 3D printing method could revolutionize the way additive manufacturing is used to print materials on construction sites.

Apr 27, 2020

Astronomers Have Found a Star That Survived Being Swallowed by a Black Hole

Posted by in categories: cosmology, materials

When black holes swallow down massive amounts of matter from the space around them, they’re not exactly subtle about it. They belch out tremendous flares of X-rays, generated by the material heating to intense temperatures as it’s sucked towards the black hole, so bright we can detect them from Earth.

This is normal black hole behaviour. What isn’t normal is for those X-ray flares to spew forth with clockwork regularity, a puzzling behaviour reported last year from a supermassive black hole at the centre of a galaxy 250 million light-years away. Every nine hours, boom — X-ray flare.

After careful study, astronomer Andrew King of the University of Leicester in the UK believes he has identified the cause — a dead star that’s endured its brush with a black hole, trapped on a nine-hour, elliptical orbit around it. Every close pass, or periastron, the black hole slurps up more of the star’s material.

Apr 26, 2020

SQuad: A miniature robot that can walk and climb obstacles

Posted by in categories: materials, robotics/AI

Researchers at Bilkent University in Turkey have recently created a small quadruped robot called SQuad, which is made of soft structural materials. This unique robot, presented in a paper published in IEEE Robotics and Automation Letters, is more flexible than existing miniature robots and is thus better at climbing or circumventing obstacles in its surroundings.

“We have been working on for almost a decade now,” Onur Ozcan, one of the researchers who carried out the study, told TechXplore. “Even though miniature robots have many advantages, such as being cheap, as they require fewer materials, and the ability to access confined spaces, one of their major drawbacks is their lack of locomotion capabilities, especially on uneven terrain.”

Tiny robots tend to get stuck easily while moving in the surrounding environment, as their height does not allow them to climb or avoid obstacles. Ozcan and his colleagues tried to overcome this limitation by implementing a principle known as ‘body compliance.”

Apr 25, 2020

Scientists develop first 3D mass estimate of microplastic pollution in Lake Erie

Posted by in category: materials

Rochester Institute of Technology scientists have developed the first three-dimensional mass estimate to show where microplastic pollution is collecting in Lake Erie. The study examines nine different types of polymers that are believed to account for 75 percent of the world’s plastic waste.

Plastic behaves differently in lakes than in oceans; previous studies on both have indicated the levels of pollution found on the surface are lower than expected based on how much is entering the water. While massive floating “islands” of accumulated have been found in oceans, previous studies have indicated the levels of plastic pollution found on the surface of Lake Erie are lower than expected based on how much is entering the water.

The new RIT estimate for the 3D mass—381 metric tons—is more than 50 times greater than the previous estimates at the surface. The study also generated the first estimate of how much plastic is deposited on the bottom of the . It accounts for the unique properties of different types of plastics and shows that the three polymers with the lowest density—polyethylene, polypropylene and expanded polystyrene—accumulate on the surface of the lake while the other six polymers were concentrated in the sediment.

Apr 23, 2020

Researchers discover ferroelectricity at the atomic scale

Posted by in categories: electronics, materials

As electronic devices become progressively smaller, the technology that powers them needs to get smaller and thinner.

One of the key challenges scientists face in developing this technology is finding materials that can perform well at an ultrathin size. But now, Berkeley researchers think they may have the answer.

Led by Sayeef Salahuddin, professor of electrical engineering and computer sciences, and graduate student Suraj Cheema, a team of researchers has managed to grow onto silicon an ultrathin material that demonstrates a unique electrical property called ferroelectricity. The duo’s findings were published in the April 22 issue of Nature.

Apr 23, 2020

Diamond chips to make meaner, greener electronics

Posted by in categories: computing, materials

Circa 2010


An economical way to make sheets of the blingest material known to man could bring a new era of high-power electronics that don’t need cooling.

Apr 21, 2020

Radiation: In physics, radiation is the emission or transmission of energy in the form of waves or particles through space or through a material medium

Posted by in categories: materials, particle physics

In physics, is the emission or transmission of energy in the form of waves or particles through space or through a material medium.[1][2] This includes:

Apr 18, 2020

Research: Adding Graphene to Concrete Produces Super-Strong Mix That Could Assist in Storm Resilience

Posted by in categories: materials, nanotechnology

A new nanotechnology promises to make future concrete stronger and more resilient.

Apr 17, 2020

Phase-change fabric both warms and cools its wearer

Posted by in category: materials

The more clothing that you wear, the warmer you are … right? Well actually, scientists have developed a new textile that both warms wearers in cold environments, and cools them down when things heat up.

The experimental material was developed at China’s Huazhong University of Science and Technology, by a team led by Prof. Guangming Tao. It’s made by first freeze-spinning silk and chitosan, forming fibers with a porous microstructure – chitosan, incidentally, is a highly useful natural compound found in crustacean shells.

Next, the pores within the fibers are filled with polyethylene glycol (PEG), which is a phase-change material that takes the form of a liquid when warm, and a solid when cool. Finally, the fibers are coated with an organic polymer known as polydimethylsiloxane, to keep the PEG from leaking out while in its liquid state.

Apr 15, 2020

Behold the “Quasar Tsunami,” Which Can Kill an Entire Galaxy

Posted by in categories: cosmology, materials

O,.o possible higgs field containment device could stop the rupture and other ways to destroy the root of the problem too.


New data from NASA’s Hubble Space Telescope details what may be the most powerful phenomena in the universe: the “quasar tsunami,” a cosmic storm of such terrifying proportions that it can tear apart an entire galaxy.

“No other phenomena carries more mechanical energy,” said principal investigator Nahum Arav of Virginia Tech in a statement. “The winds are pushing hundreds of solar masses of material each year. The amount of mechanical energy that these outflows carry is up to several hundreds of times higher than the luminosity of the entire Milky Way galaxy.”

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