(Press-News.org) PASADENA, Calif.—Stronger than steel or titanium—and just as tough—metallic glass is an ideal material for everything from cell-phone cases to aircraft parts. Now, researchers at the California Institute of Technology (Caltech) have developed a new technique that allows them to make metallic-glass parts utilizing the same inexpensive processes used to produce plastic parts. With this new method, they can heat a piece of metallic glass at a rate of a million degrees per second and then mold it into any shape in just a few milliseconds.
"We've redefined how you process metals," says William Johnson, the Ruben F. and Donna Mettler Professor of Engineering and Applied Science. "This is a paradigm shift in metallurgy." Johnson leads a team of researchers who are publishing their findings in the May 13 issue of the journal Science.
"We've taken the economics of plastic manufacturing and applied it to a metal with superior engineering properties," he says. "We end up with inexpensive, high-performance, precision net-shape parts made in the same way plastic parts are made—but made of a metal that's 20 times stronger and stiffer than plastic." A net-shape part is a part that has acquired its final shape.
Metallic glasses, which were first discovered at Caltech in 1960 and later produced in bulk form by Johnson's group in the early 1990s, are not transparent like window glass. Rather, they are metals with the disordered atomic structure of glass. While common glasses are generally strong, hard, and resistant to permanent deformation, they tend to easily crack or shatter. Metals tend to be tough materials that resist cracking and brittle fracture—but they have limited strength. Metallic glasses, Johnson says, have an exceptional combination of both the strength associated with glass and the toughness of metals.
To make useful parts from a metallic glass, you need to heat the material until it reaches its glass-transition phase, at about 500� degrees C. The material softens and becomes a thick liquid that can be molded and shaped. In this liquid state, the atoms tend to spontaneously arrange themselves to form crystals. Solid glass is formed when the molten material refreezes into place before its atoms have had enough time to form crystals. By avoiding crystallization, the material keeps its amorphous structure, which is what makes it strong.
Common window glass and certain plastics take from minutes to hours—or longer—to crystallize in this molten state, providing ample time for them to be molded, shaped, cooled, and solidified. Metallic glasses, however, crystallize almost immediately once they are heated to the thick-liquid state. Avoiding this rapid crystallization is the main challenge in making metallic-glass parts.
Previously, metallic-glass parts were produced by heating the metal alloy above the melting point of the crystalline phase—typically over 1,000 degrees C. Then, the molten metal is cast into a steel mold, where it cools before crystallizing. But problems arise because the steel molds are usually designed to withstand temperatures of only around 600 degrees C. As a result, the molds have to be frequently replaced, making the process rather expensive. Furthermore, at 1,000 degrees C, the liquid is so fluid that it tends to splash and break up, creating parts with flow defects.
If the solid metallic glass is heated to about 500� degrees C, it reaches the same fluidity that liquid plastic needs to have when it's processed. But it takes time for heat to spread through a metallic glass, and by the time the material reaches the proper temperature throughout, it has already crystallized.
So the researchers tried a new strategy: to heat and process the metallic glass extremely quickly. Johnson's team discovered that, if they were fast enough, they could heat the metallic glass to a liquid state that's fluid enough to be injected into a mold and allowed to freeze—all before it could crystallize.
To heat the material uniformly and rapidly, they used a technique called ohmic heating. The researchers fired a short and intense pulse of electrical current to deliver an energy surpassing 1,000 joules in about 1 millisecond—about one megawatt of power—to heat a small rod of the metallic glass.
The current pulse heats the entire rod—which was 4 millimeters in diameter and 2 centimeters long—at a rate of a million degrees per second. "We uniformly heat the glass at least a thousand times faster than anyone has before," Johnson says. Taking only about half a millisecond to reach the right temperature, the now-softened glass could be injected into a mold and cooled—all in milliseconds. To demonstrate the new method, the researchers heated a metallic-glass rod to about 550 degrees C and then shaped it into a toroid in less than 40 milliseconds. Despite being formed in open air, the molded toroid is free of flow defects and oxidation.
In addition, this process allows researchers to study these materials in their molten states, which was never before possible. For example, by heating the material before it can crystallize, researchers can examine the crystallization process itself on millisecond time scales. The new technique, called rapid discharge forming, has been patented and is being developed for commercialization, Johnson says. In 2010, he and his colleagues started a company, Glassimetal Technology, to commercialize novel metallic-glass alloys using this kind of plastic-forming technology.
INFORMATION:
The other authors on the Science paper, "Beating crystallization in glass-forming metals by millisecond heating and processing," are Caltech's Georg Kaltenboeck, Marios D. Demetriou, Joseph P. Schramm, Xiao Liu, Konrad Samwer (a visiting associate from the University of Gottingen, Germany), C. Paul Kim, and Douglas C. Hofmann. This research benefited from support by the II-VI Foundation.
Written by Marcus Woo.
Strong, tough and now cheap: Caltech researchers develop a new way to process metallic glass
2011-05-13
ELSE PRESS RELEASES FROM THIS DATE:
Pennsylvania May Require DNA Samples For All Felony Arrests
2011-05-13
Legislation has been introduced that would require suspects charged with felonies and some misdemeanors to be swabbed for DNA samples in Pennsylvania.
The bill is expected to move rapidly through the legislative process. Prosecutors favor the move as making it easier to obtain convictions.
The present law limits DNA samples to those convicted or where permitted by a search warrant.
The Pittsburg Tribune-Review quotes Sgt. Joe Gannon, from the Pittsburg police sex assault squad, and he explained that as evidence, it could go either way, "I think it's a good ...
Interactive teaching methods double learning in undergraduate physics class: UBC research
2011-05-13
Interactive teaching methods significantly improved attendance and doubled both engagement and learning in a large physics class, according to a University of British Columbia study published today in Science.
Led by Louis Deslauriers, a post-doctoral researcher at UBC's Carl Wieman Science Education Initiative (CWSEI), the study compared the amount of learning students experienced when taught – in three hours over one week – by traditional lecture and by using interactive activities based on research in cognitive psychology and physics education.
The research team ...
Scottsboro Hotel Near Goose Pond Colony Offers Convenient Lodging to Guests Attending Men's National Jr. College Golf Championship
2011-05-13
Hampton Inn & Suites Hotel Scottsboro offers nearby lodging to golfers and fans attending the National Junior College Athletic Association (NJAA) Division II Men's Golf Championship. The tournament will take place on Tuesday, May 17 at Goose Pond Colony Golf Course and will feature the best young golfers from across the country. Colleges that participate in Division II NJCC Golf are located across the country.
Goose Pond Colony is a municipally owned resort located on the banks of the Tennessee River at Lake Guntersville, Alabama's largest lake. Goose Pond Colony ...
Action needed to manage climate change risks -- new report
2011-05-13
WASHINGTON — Warning that the risk of dangerous climate change impacts is growing with every ton of greenhouse gases emitted into the atmosphere, a National Research Council committee today reiterated the pressing need for substantial action to limit the magnitude of climate change and to prepare to adapt to its impacts. The nation's options for responding to the risks posed by climate change are analyzed in a new report and the final volume in America's Climate Choices, a series of studies requested by Congress. The committee that authored the report included not only ...
Existing drug treatment reduces pain in young sickle cell anemia patients
2011-05-13
DALLAS – May 12, 2011 – A cancer drug already used to treat adults and school-age children with sickle cell anemia is safe and significantly reduces pain and other complications of the disease in children as young as 9 months, according to a national study involving a UT Southwestern Medical Center researcher.
Pediatric researchers at UT Southwestern and 13 other academic medical centers say hydroxyurea should be offered to all young children with sickle cell anemia, regardless of disease severity and clinical symptoms. The findings of the Pediatric Hydroxyurea in Sickle ...
Guoman Hotels' The Royal Horseguards Unveils The Equus Bar
2011-05-13
Guoman Hotels' flagship five star hotel, The Royal Horseguards, has opened the doors to The Equus Bar, London's newest destination bar created specifically with the modern gent in mind.
The transformed stylish bar and lounge area of the AA London Hotel of the Year has a strong gentlemen's club feel, styled with crushed velvet reds, chain mail gold and period oil paintings to signify the hotel's historic past. Fabrics in leather, chenille and rich weaves give it a luxurious touch whilst illuminated carved glass panels display cognacs and fine malts.
The bar menu - ...
Latitude and rain dictated where species lived
2011-05-13
PROVIDENCE, R.I. [Brown University] — Aggregating nearly the entire landmass of Earth, Pangaea was a continent the likes our planet has not seen for the last 200 million years. Its size meant there was a lot of space for animals to roam, for there were few geographical barriers, such as mountains or ice caps, to contain them.
Yet, strangely, animals confined themselves. Studying a transect of Pangaea stretching from about three degrees south to 26 degrees north (a long swath in the center of the continent covering tropical and semiarid temperate zones), a team of scientists ...
Was Millionaire Entrepreneur Keith Middlebrook Telling the Truth About Partying With Lindsay Lohan?
2011-05-13
From private dinners with Paris Hilton at the Sundance Film Festival to the Men's Luxury Toy Expo, to the Muhammed Ali "Night of Champions" charity dinner, millionaire entrepreneur Keith Middlebrook has a long standing reputation for funding charity events, funding promotions, and for funding just plain fun. This includes several weekends of partying at the Chateau Marmont Hotel with Lindsay Lohan.
Keith Middlebrook was recently featured on the cover of Star magazine when someone from inside the Chateau Marmont sold his American Express credit card receipts ...
African Americans and the general public support banning menthol in cigarettes
2011-05-13
According to a new study released online today, a majority of Americans, including most African Americans, stand together in support of banning menthol in cigarettes just as other cigarette flavorings have now been banned by the FDA. According to established reports, 83 percent of African American smokers and 24 percent of white smokers smoke menthol cigarettes.
This new study was done by the Center for Child and Adolescent Health Policy at MassGeneral Hospital for Children (MGHfC), the American Academy of Pediatrics' Julius B. Richmond Center of Excellence, and the ...
Mixing fluids efficiently in confined spaces: Let the fingers do the working
2011-05-13
Getting two fluids to mix in small or confined spaces is a big problem in many industries where, for instance, the introduction of one fluid can help extract another — like water pumped underground can release oil trapped in porous rock — or where the mixing of liquids is the essential point of the process. A key example of the latter is microfluidics technology, which allows for the controlled manipulation of fluids in miniscule channels often only a few hundred nanometers wide.
Microfluidic devices were first introduced in the 1980s and for many years were best known ...