Synopsis: Domenii: Materials:

Reliance Games has developed several games based on well-known IP like Hunger Games and Real Steel. The robot battle game eal Steel World Robot Boxingis likely the best known Reliance Games app it has 7. 5 Million downloads,

while the cluster of three Real Steel tie-in apps has garnered 47 Million downloads. The Real Steel franchise has shown broad global appeal

with country tallies standing at US (10m+),Russia (4. 8m+),Thailand (2. 7m+),Mexico (2m+),Brazil (1. 9m+),S. Korea (1. 6m

+),China (1. 2m+.+This is one reason why many game developers are now pursuing IP licenses a reasonably successful movie

Real Steel is a 2011 movie that grossed $300 Million. Earlier this March, eal Steel Champions a new spin-off app by Reliance Games, hit Top 5 of US ipad download chart.

Licensed app franchises can have surprisingly long life spans, aiding app discovery years after the popularity of the original IP has peaked.

In the case of Real Steel, we focused on the robot combat and not the journey of the Hugh Jackman Character.

and patents, toured syringe manufacturing plants and studied plastic injection moulding techniques. Thirty one years later he found himself in Geneva again in February

insects called water striders are small enough for their weight to be supported almost entirely by the surface tension of water the same phenomenon that makes water droplets bead up.

the scientists found that the maximum force the water striders'legs exerted was always just below the maximum force that water's surface tension could withstand.

thereby maximizing the surface tension the legs experienced. Next, the scientists developed lightweight robots made of glass-fiber-reinforced composite materials that,

in total, weighed only 0. 002 ounces a little more than the weight of three adult houseflies.

Both teflon and ceramic is abundant, making it easy and inexpensive to produce. The combination of this very thin material, its nonmetallic properties,

Rare and expensive metals such as platinum can serve as effective catalysts, but in its work the team discovered that it could create a much cheaper,

an assistant professor of applied physics and materials science at Caltech. ut this new technology is very similar to the one used to print semiconductor chips onto silicon wafers,

#quid teethplastic self-heals with water Scientists derived the genetic code of squid ring teeth to develop a polymer that self-heals with a single drop of water.

researchers say. hat unique about this plastic is the ability to stick itself back together with a drop of water,

The polymer can then either be molded using heat or cast by solvent evaporation. The two-part material is a copolymer consisting of an amorphous segment that is soft and a more structured molecular architecture.

The structured portion consists of strands of amino acids connected by hydrogen bonds to form a twisted and/or pleated sheet.

This part also provides strength for the polymer, but the amorphous segment provides the self-healing.

Healing wounds The researchers created a dog-bone shaped sample of the polymer and then cut it in half.

A new polymer structure, developed and produced with 3d printing by postdoc Miguel Molerón, is central to the new method.

They attached the polymer structure with the microphones to a robot very close to the object surface,

it would also be interesting to adapt the method for ultrasound that has shorter wavelengths. ecause the size of the polymer structure has to be adjusted to the operational wavelength,

The researchers used smart shape-memory polymers (SMPS) with the ability to remember one shape

ALLOVER TEMPERATURE The research creates self-folding structures from 3d printed patterns containing varying amounts of different smart shape-memory polymers.

These examples all require the precise control of the folding sequence of different parts of the structure to avoid collisions of the components during folding. e have exploited the ability to 3d-print smart polymers

which were made from varying ratios of two different commercially available shape-memory polymers. A simplified reduced-order model was developed also to rapidly

#Physicists discover a weird new form of matter A team of physicists has discovered an unusual form of matterot a conventional metal, insulator,

first consider a crystal with electrons moving around throughout its interior. Under certain conditions, it can be energetically favorable for these electrical charges to pile up in a regular,

repeating fashion inside the crystal, forming what is called a charge-ordered phase. The building block of this type of order, namely charge, is simply a scalar quantityhat is,

When spins line up parallel to each other (in a crystal, for example they form a ferromagnethe type of magnet you might use on your refrigerator

The Hsieh group experiment exploited the fact that changes in the symmetry of a crystal will affect the strength of each harmonic differently.

Since the emergence of multipolar ordering changes the symmetry of the crystal in a very specific way way that can be largely invisible to conventional probesheir idea was that the optical harmonic response of a crystal could serve as a fingerprint of multipolar order

. e found that light reflected at the second harmonic frequency revealed a set of symmetries completely different from those of the known crystal structure,

Using sugar, silicone, and a 3d printer, bioengineers and surgeons have created an implant with an intricate network of blood vessels.

leaving behind a network of small channels in the silicone. hey don yet look like the blood vessels found in organs,

Ribo-T may be able to be tuned to produce unique and functional polymers for exploring ribosome functions

or producing designer therapeuticsnd, eventually perhaps even non-biological polymers. No one has developed ever something of this nature. e felt like there was a smallery smallhance Ribo-T could work,

#Tiny metal illarssurvive 1, 100 degrees Celsius Scientists have produced a thin film out of a new class of metal alloys that can survive very high temperatures and extreme pressures.

Scientists refer to this deformability as ductility. The high-entropy alloy materialade of equal parts niobium, molybdenum, tantalum,

Following heat treatment, micropillars made of the alloy perform significantly better in terms of strength and ductility than those made of pure tungsten.

This is despite the fact that the high-entropy alloy melting point is significantly lower than that of pure tungsten (around 2, 900 versus 3, 400 degrees Celsius.

The scientists produced the 3-micrometer film using magnetron sputtering, a coating method often used in the field of microelectronics.

The material is remarkable not only for its extremely intricate pillar structure but also for its internal crystal structure.

this material also consists of a large number of small individual crystals. The special feature of the alloy is that these individual crystals are tinyhis is referred to as a nanocrystalline material. lthough nanocrystalline materials have many desirable properties,

they often also bring disadvantages, explains Yu Zou, a doctoral student and first author of the study published in the journal Nature Communications. or example,

as heating causes the individual crystals to expand and therefore changes the properties of the material. ccording to the scientists,

the alloy ability to withstand extreme temperatures may be related to the relatively disordered atomic distribution of the elements inside the material.

In particular, the researchers suspect that the disorder at the internal boundary surfaces of individual crystals in high-entropy alloys means the crystals tend to grow less than in other materials when heated.

The OSU study (CD toxinroduced actin oligomers poison formin-controlled actin polymerization which is published in Science,

a monomer, or a single molecule, and a filament, which is a strand of those molecules strung together.

or a bit of saliva on a small plastic film that has a piece of cellulose plastic on it.

all packed within a flexible, polymer-coated pouch. And unlike lithium-ion batteries which can short circuit

Furthermore, the researchers point out that aluminum is a cheaper metal than lithium, and the aluminum-ion technology offers an environmentally friendly alternative to disposable AA

That alloy is a shape-memory material this means that although it will stay in a shape that it's been bent into

but even in the 1950s, the speed that tapes had to run was more than the plastic could handle without stretching or tearing,

and magnetic readers were developed so the tapes could run back and forth quickly without putting too much strain on the plastic.

The new tape is the result of 13 years of work on a high-density barium ferrite tape combined with new control technology for read write-heads heads involving advanced servo control technologies

where c is the speed of light in vacuum and n denotes the refractive index of the medium in which the light pulse propagates.

The amplitude depends on distance, size, reflectivity and angle of the object with respect to the sensor. An object will be detected by the sensor

"The Veg-01 experiment sees plants grown in zero gravity in a plastic greenhouse that consists of a collapsible plastic tent with a controllable atmosphere that is lit by red, blue,

Polymers like hydrogels carry large amounts of water within their structure which gives them the capacity to respond to variations in environmental factors such as acidity,

the team created an L-shaped polymer and changed the temperature repeatedly to observe its response.

The nanosheets were fixed then in place using a process called light-triggered in-situ vinyl polymerization where the light helped to stick them together within the polymer.

The nanosheets create electrostatic resistance in one direction, but not the other. The polymer"legs"not only lengthened

and contracted at pace, allowing it to move forward, but its overall volume also remained the same.

The L-shaped polymer can walk indefinitely, Ishida says, as long as the heating and cooling cycle is repeated.

#Snake skin-inspired steel could lead to better hard drives and more When it comes to human phobias,

With a fiber laser, they milled scales into a steel bolt of 8 mm in diameter.

With that in mind, researchers at KIT milled scales into a steel bolt 8 mm in diameter using a fiber laser.

Both designs were tested on lubricated (steel) and unlubricated (sapphire) contacts. For lubricated conditions, the untextured surface generated the least amount of friction

even with hard materials like steel and sapphire, it shows that scale-like texturing has potential application for dry-contact devices and/or environments that benefit from low friction and high wear resistance c

The meshes are made from a flexible polymer called POMAC (which is short for this mouthful:"

and bend the polymer meshes.""And when we apply electrical field stimulation, we see that they beat in synchrony."

the engineers used coils of copper wires insulated with PVC tubing. At one end of this arrangement, the wires terminate at a receiver and analyzer,

and Johns hopkins university collaborated on a ground-breaking procedure to produce a 3d printed silicone support structure that is implanted into living tissue to guide

which then produced the silicone nerve guide. The sciatic nerve in the rat was severed then, and the guide was implanted surgically into the rat by grafting it to the sliced ends of the nerve.

The short video below shows the 3d printing process used for the production of the silicone guides u

and the limited visibility that comes with being wrapped in a mobile fortress of ceramic and steel.

#Biodegradable implant could simplify bone replacement surgery Combining cornstarch with volcanic ash clay to create a plastic for bone grafts could make the surgical process of bone replacement much simpler in the future.

or hard plastic in the area may make future procedures easier.""The biodegradable polymer is reinforced with montmorillonite clay nanoparticles (we've seen nanoparticles used in other ways to heal bones) for strength,

and injected with carbon dioxide making the implant look like a kind of rigid foam that is porous like real bone.

"says Mauricio Terrones, professor of physics, chemistry and materials science at Penn State.""We were previously able to dope graphene with atoms of nitrogen,

#Teenage Girl Turns Plastic Trash Into Million-Dollar Biofuel An Egyptian teenager has discovered an inexpensive way to turn plastic trash into fuel

what some scientists are calling iofuelbecause the organic chemicals from plastic polymers she extracts, are the same chemicals extracted from vegetation to create ethanol biofuel.

The little black bundles, framed by stainless steel, were promised to anyone who donated#50 or more.

low-frequency ultrasound can travel through the body without any scattering. Light-based techniques are great for some uses and

the researchers used a custom-built 3d printer to make silicone guides for nerve regeneration. These 3d printed nerve pathways were embedded with biochemical cues to promote growth.

He says ther metals have lower efficiency but higher thrust. So you would need more fuel to get to Mars,

but Neumann has achieved promising results with titanium, aluminium and other widely used metals. Spaceships using his drive might find capturing fuel made from a dead satellite a handy way to refuel,

Neumann says experiments with pulsed electric arcs on metals go back to the 1920s, and some of the data collected was useful to him in assessing

plastic-based material. What about organic materials, such as human organs? Wouldn it be great if new organs could be printed out and used in surgical operations to save people lives?(

These soft materials were not mere plastic copies of biological material: collagens, muscle fibers, miniature brain structures,

a Ph d. candidate in materials science and engineering at the University of Illinois. here no way of doing that today.

and copper supported by silicone. Most of the sensor bulk comes from a 40-micrometer-thick layer of silicone.

Each of the other layers has a thickness of just tens or hundreds of nanometers.

They were built out of small plastic cubes with motors inside. The experiments found that those baby robots passed down all of their best traits.

Apple will use a more reinforced metal for the phone body the reports have indicated. That slightly larger body will have a smaller battery than the iphone 6, according to previous leaks.

N y. For nearly three decades Krishan Luthra stubbornly labored away in a General electric research lab on a long-shot effort to cook up a new type of ceramic that few consumers will ever see or use.

The material is a type of ceramic that is hard and can handle high heat, like the ceramics people have been making for 25,000 years.

But this ceramic is a complex composite that is also very light, and tough like a metal.

No one wants the aircraft engine that is holding them 35,000 feet above the earth to shatter like a vase.

Success came only at the end of a tortured path of fluctuating research funding and disappointments that at times shook Luthra hopes. here were times where

because the alloys would melt. Already, today engines employ elaborate cooling mechanisms that divert air for cooling that otherwise would be used to power the plane.

Ceramic matrix composites can withstand temperatures 20 percent higher than these metals, and they are one-third the weight. or

says Gregory Morscher, a ceramic composites expert and mechanical engineering professor at the University of Akron.

The theoretical qualities of these ceramic composites have long been well known, but Luthra wanted to make them a reality,

and structure of the matrix thin filaments coated with a ceramic that is shaped into a lattice.

One leap forward was a new type of fiber developed in Japan made of silicon carbide.

But coating these fibers with a ceramic each just one eighth the width of a human hair, evenly, was extremely difficult. f you don do that right you get a ceramic that behaves like china,

and if you do it right you get ceramic with metal properties, and that the big deal, he says.

He figured how to apply the coatings to each individual fiber in something called a chemical vapor deposition reactor,

The fibers are bathed then in a polymer that arranges them into a latticelike structure. Then

like all ceramics, the material is baked. The polymer burns away and leaves behind a strong,

light lattice that is later filled with liquid silicon to create a solid structure. GE designed the material into an engine called the LEAP to be used on the coming Airbus 320neo and Boeing 737 MAX.

who manages the LEAP program for GE Aviation division, of the composite. GE says that by 2020,

He wants to improve the composites so they can handle even higher temperatures, and he wants to convince more divisions at GE to use the materials. don want to stop,

director of Berkeley Lab Materials sciences Division. ur ultra-thin cloak now looks like a coat. It is easy to design and implement,

The researchers, from the Electronics and Telecommunications Research Institute and Konkuk Univ. in the Republic of korea, coated cotton and polyester yarn with a nanoglue called bovine serum albumin (BSA.

LEDS can be produced by quantum dots, or tiny crystals that have luminescent properties. Quantum dots (QDS) can be made with numerous materials, some

of which are rare and expensive to synthesize, and even potentially harmful to dispose of. Some research over the past 10 years has focused on using carbon dots (CDS),

or simply QDS made of carbon, to create LEDS instead. Compared to other types of quantum dots

CDS have lower toxicity and better biocompatibility, meaning they can be used in a broader variety of applications.

The device, called Netra, is a plastic, binocular-like headset. Users attach a smartphone, with the startup app, to the front and peer through the headset at the phone display.

In new research, published in the Royal Society of Chemistry's Journal of Materials Chemistry A, they found that some metal-organic frameworks,

as porphyrin is related to chlorophylls, the green pigments which allow plants to convert sunlight into chemical energy,

#Researchers Use Potatoes to Make Eco-friendly Plastic films Using potato peels and culls considered waste by Alberta potato-processing industry,

With applications for both the food packaging and cosmetic industries, the new bioactive film is a green alternative to traditional petroleum-based plastics

Subcritical fluid technology uses water above its boiling point and below its critical temperature, under pressure. In subcritical water medium, starch can be modified to influence the film properties, such as its tensile strength

elongation, and antioxidant and antimicrobial activity. Saldaña team has obtained already an international Patent Cooperation Treaty application for the processing method

or repelled by, a metal surface by changing the polarity of the voltage applied to the metal.

in turn, allows control over the rate of heat transfer between the metal and the liquid.

Peter Nilsson, a chemical biologist at Linköping University in Sweden, was experimenting with conductive plastics,

than regular, crystalline solids. But the new type of glass created by researchers at the University of Chicago

Like a crystal, it has a well-defined molecular organization, de Pablo said in a statement.

which relies on materials called carbon nanotubes, allows scientists to build the chip in three dimensions. The 3d design enables scientists to interweave memory,

Carbon nanotubes To get around this issue Shulaker and his advisers at Stanford university, Subhasish Mitra and H.-S. Philip Wong, looked to a completely different material:

carbon nanotubes, or miniscule mesh rods made of carbon atoms, which can be processed at low temperatures. Carbon nanotubes (CNTS) have electrical properties similar to those of conventional silicon transistors.

In a head-to-head competition between a silicon transistor and a CNT transistor,"hands down, the CNT would win,

"However, carbon nanotubes grow in a disorderly manner, "resembling a bowl of spaghetti, "which is no good for making circuits,

including a small polymer panel that literally goes"poof,"changing from a solid into a gas.

The team demonstrated their tractor beam using tiny balls of polystyrene the same material used in packing peanuts.

"The team currently levitates lightweight polystyrene balls that measure up to 0. 2 inches (5 millimeters) across.

The nanoparticles are made of biodegradable polymers called poly (ß-amino esters)( PBAES) and in lab tests were able to pass through mucus taken from real patients.

The Velox valve works with different size mitral annuli and consists of the standard pericardial leaflets on top of a polymer coated nitinol self-expanding structure.

#This company grows super-metals like trees A Seattle start-up called Modumetal could soon do for metal

what 3-D printing has done for plastics, reports Fortune. The company has developed a revolutionary process for"growing"metal that can be likened to how trees grow, according to CEO and cofounder Christina Lomasney.

The method is the ideal way of making materials, she explained. It's similar to the way that other Nature has evolved growing things over eons."

"The key to the method and what makes it so innovative is the use of nanotechnology to micromanage at the tiniest of scales the construction of their metal alloys, layer by layer.

"plywood-like metals with custom-made properties that are superior to conventional materials due to their nano-level detail.

Corrosion resistance isn't the only super-trait of these metals. They can also be made stronger and lighter than steel,

and resistant to temperature changes too. For example, the Defense department has approached the company with interest in the development of new armor that is both bulletproof and light enough to wear.

and using metals like smelting, the Modumetal method requires only electricity. The company hopes its technique will usher in a new era

Ballantine's added a Rose gold mouthpiece to retain what it describes as"that evocative, cold touch on your lip as you drink."

#New ultra-strong, lightweight aluminum-steel alloy invented that rivals titanium Old-fashioned steel has been one of the most reliable and ubiquitous building materials for centuries,

so it might seem a bit outmoded to talk of a steel breakthrough. But researchers at Pohang University of Science and Technology in South korea may have made steel cool again, not to mention stronger and lighter, reports Popular Mechanics.

The researchers have devised a method for creating an aluminum-steel alloy that is more flexible, lightweight and stronger than any kind of steel ever made before.

This isn't the first time anyone has thought to add aluminum to the steel mix. Back in the 1970's

Soviet scientists recognized that by blending steel and aluminum they could forge an ultra-strong, lightweight metal,

but these advantages were always superseded by one major drawback: it was incredibly brittle. When significant force was applied,

it always broke rather than bent. The problem was that when you fuse aluminum and iron atoms together,

it tends to create tough, crystalline structures called B2, which are what make the aluminum-steel alloys so brittle.

No one had ever found a way around this problem, until now. Hansoo Kim and his team at Pohang discovered that

if the B2 crystals could be dispersed properly throughout the steel, the surrounding alloy could insulate them from splintering."

"My original idea was that if I could somehow induce the formation of these B2 crystals,

I might be able to disperse them in the steel, "explained Kim. It's not as simple as it sounds.

Kim and his team spent years painstakingly heat-treating and thinly rolling their steel in repeated attempts to control

when and where B2 crystals were formed. They experimented by adding bits to the mix; nickel, it turns out,

offered the particularly important advantage of making the crystals form at a much higher temperature, for instance.

Finally, they mastered their technique. The result of all this work is a viable aluminum-steel alloy that is 13 percent less dense compared to normal steel,

and with a comparable strength-to-weight ratio compared to titanium alloys. That's significant,

and it could make aluminum-steel alloy the building material of the future.""Because of its lightness, our steel may find many applications in automotive

and aircraft manufacturing,"said Kim m

#How to save soldiers'lives with fizz One of the biggest challenges for medics on the battlefield is treating blood loss,

which is among the leading causes of death for wounded soldiers. Bandages infused with chemicals designed to assist blood clotting helps,

and the University of North carolina at Chapel hill have designed a novel drug release technology that relies on a stretchable elastomer

The patches consist of an elastomer that has tiny capsules throughout its surface each filled with drug loaded nanoparticles.

This pressure comes from stretching of the elastomer film, which in turn stretches the capsules and compresses them to release the drugs.

But in gas sensing applications, copper oxide was much less widely investigated compared to other metal oxide materials.

But in gas sensing applications, copper oxide was much less widely investigated compared to other metal oxide materials.

and electrically active crystals in one direction unlocks exotic spintronic switching activityby breaking the symmetry of ultiferroiccrystals using a special compression cell,

where polarization effects are initiated at ultralow temperatures by changing the crystal internal symmetry. This effect,

By applying pressure to the crystal in a direction that corresponds to a specific crystallographic axis,

The team constructed a unique cell that clamps a multiferroic barium cobalt germanium oxide (Ba2coge2o7) crystal between a pair of zirconium oxide pistons (Fig. 1). They then investigated how the sample electric polarization changed under uniaxial stress.

In contrast, by deforming the Ba2coge2o7 crystal with varying levels of uniaxial stress, the researchers could tune the polarization output in unprecedented ways, from fully on to fully off,

particularly for crystals with high levels of symmetry. any multiferroic materials have the potential to show stress-induced effects,

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