Islands without structure inside metal alloys could lead to tougher materials

These high-entropy alloys could lead to better technologies in transportation, energy and denfense

2021-01-29

(Press-News.org) An international team of researchers produced islands of amorphous, non-crystalline material inside a class of new metal alloys known as high-entropy alloys. This discovery opens the door to applications in everything from landing gears, to pipelines, to automobiles. The new materials could make these lighter, safer, and more energy efficient. The team, which includes researchers from the University of California San Diego and Berkeley, as well as Carnegie Mellon University and University of Oxford, details their findings in the Jan. 29 issue of Science Advances. "These present a bright potential for increased strength and toughness since metallic glasses (amorphous metals) have a strength that is vastly superior to that of crystalline metals and alloys," said Marc Meyers, a professor in the Department of Mechanical and Aerospace Engineering at UC San Diego, and the paper' s corresponding author. Using transmission electron microscopy, which can identify the arrangement of atoms, the researchers concluded that this amorphization is triggered by extreme deformation at high velocities. It is a new deformation mechanism that can increase the strength and toughness of these high entropy alloys even further. The research is based on seminal work by Brian Cantor at the University of Oxford, and Jien-Wei Yeh at National Tsing Hua University in Taiwan. In 2004, both researchers led teams that reported the discovery of high-entropy alloys. This triggered a global search for new materials in the same class, driven by numerous potential applications in the transportation, energy, and defense industries. "Significant new developments and discoveries in metal alloys are quite rare," Meyers said.

INFORMATION:

Amorphization in extreme deformation of the CrMnFeCoNi high-entropy alloy Shiteng Zhao and Robert O. Ritchie, University of California Berkeley; Zezhou Li, Wen Yang and Marc A. Meyers, University of California San Diego; Chaoyi Zhu, Carnegie Mellon University; Zhouran Zhang, David E. J. Armstrong and Patrick S. Grant, University of Oxford.

[Attachments] See images for this press release:

ELSE PRESS RELEASES FROM THIS DATE:

Genes that dance to the circadian rhythm

2021-01-29

In 2017, the Nobel Prize in Physiology or Medicine went to three scientists who uncovered the molecular mechanisms that control the circadian rhythm, otherwise known as the "wake-sleep" cycle. To carry out their work, the scientists used the common fruit fly Drosophila melanogaster, making this the sixth Nobel to be awarded to research involving it. Fruitful fruit flies Life scientists have been using Drosophila for over a century now. First proposed by entomologist Charles W. Woodworth as a model organism, its use in research was pioneered by geneticist Thomas H. Morgan who ran his famous ...

Dewdrops on a spiderweb reveal the physics behind cell structures

2021-01-29

As any cook knows, some liquids mix well with each other, but others do not. For example, when a tablespoon of vinegar is poured into water, a brief stir suffices to thoroughly combine the two liquids. However, a tablespoon of oil poured into water will coalesce into droplets that no amount of stirring can dissolve. The physics that governs the mixing of liquids is not limited to mixing bowls; it also affects the behavior of things inside cells. It's been known for several years that some proteins behave like liquids, and that some liquid-like proteins don't mix together. However, very little is known about how these liquid-like proteins behave on cellular surfaces. "The separation between two liquids that won't mix, like oil and water, is known as ...

Medicaid expansion in New York has improved maternal health, study finds

2021-01-29

January 29, 2021 -- A study at Columbia University Mailman School of Public Health and Columbia University Irving Medical Center has found that Medicaid expansion in 2014 in New York State was associated with a statistically significant reduction in severe maternal morbidity in low-income women during delivery hospitalizations compared with high-income women. The decrease was even more pronounced in racial and ethnic minority women than in White women. Until now there was little research on the link between ACA Medicaid expansion and maternal health outcomes. The findings are published online in the journal of the International Anesthesia Research Society, Anesthesia & Analgesia. "Our findings indicate that the 2014 ...

Specific bacteria in the gut prompt mother mice to neglect their pups

2021-01-29

LA JOLLA--(January 29, 2021) As scientists learn more about the microorganisms that colonize the body--collectively called the microbiota--one area of intense interest is the effect that these microbes can have on the brain. A new study led by Salk Institute scientists has identified a strain of E. coli bacteria that, when living in the guts of female mice, causes them to neglect their offspring. The findings, published January 29, 2021, in the journal Science Advances, show a direct link between a particular microbe and maternal behavior. Although the research was done in mice, it adds to the growing body of science demonstrating that microbes in the gut are important for brain health and can affect development and behavior. "To our knowledge, this is the first demonstration ...

GSA Bulletin articles published ahead of print in January

2021-01-29

Boulder, Colo., USA: Sixteen articles were published online ahead of print for GSA Bulletin in January. Topics include insights from the Sawtooth metamorphic complex in Idaho, fingerprinting sand from ancient rivers, eroding Cascadia, and the Troodos ophiolite. Three-dimensional geometry and growth of a basement-involved fault network developed during multiphase extension, Enderby Terrace, North West Shelf of Australia Hongdan Deng; Ken McClay Abstract: Basement fault reactivation, and the growth, interaction, and linkage with new fault segments are fundamentally three-dimensional and critical for understanding the evolution of fault network development in sedimentary basins. This paper analyzes the evolution of a complex, basement-involved ...

Black lung cancer patients die sooner than white counterparts

2021-01-29

CHICAGO (January 29, 2021) -- Structural racism thwarts a large proportion of black patients from receiving appropriate lung cancer care, resulting in worse outcomes and shorter lifespans than white patients with the disease, according to research presented at the 57th Annual Meeting of The Society of Thoracic Surgeons. "Many studies have shown that there are disparities between the outcomes of black and white patients, but have done little to elucidate why these disparities are occurring," said Chandler Annesi, a medical student from Boston University ...

A computational approach to understanding how infants perceive language

2021-01-29

Languages differ in the sounds they use. The Japanese language, for example, does not distinguish between "r" and "l" sounds as in "rock" versus "lock." Remarkably, infants become attuned to the sounds of their native language before they learn to speak. One-year-old babies, for example, less readily distinguish between "rock" and "lock" when living in an environment where Japanese, rather than English, is spoken. Influential scientific accounts of this early phonetic learning phenomenon initially proposed that infants group sounds into native vowel- and consonant-like phonetic categories ...

New study investigates photonics for artificial intelligence and neuromorphic computing

2021-01-29

Scientists have given a fascinating new insight into the next steps to develop fast, energy-efficient, future computing systems that use light instead of electrons to process and store information - incorporating hardware inspired directly by the functioning of the human brain. A team of scientists, including Professor C. David Wright from the University of Exeter, has explored the future potential for computer systems by using photonics in place of conventional electronics. The article is published today (January 29th 2021) in the prestigious journal Nature Photonics. The ...

Robotic exoskeleton training expands options for stroke rehabilitation

2021-01-29

East Hanover, NJ. January 29, 2021. A team of New Jersey researchers has demonstrated that high-dose therapy gait training using robotic exoskeletons may aid early rehabilitation for acute stroke. The article, "Robotic exoskeleton gait training during acute stroke inpatient rehabilitation" (doi: 10.339/fnbot.2020.581815), was published October 30, 2020 in Frontiers in Neurorobotics is available open access at: https://www.frontiersin.org/articles/10.3389/fnbot.2020.581815/full The authors are Karen Nolan, PhD, Kiran Karunakaran, PhD, and Kathleen Chervin, of Kessler Foundation, Michael Monfett, MD, of Children's Specialized Hospital, Radhika Bapineedu, MD, and Neil N. Jasey Jr, MD, of Kessler Institute for Rehabilitation, and Mooyeon Oh-Park, MD, ...

Automated AI algorithm uses routine imaging to predict cardiovascular risk

2021-01-29

Coronary artery calcification -- the buildup of calcified plaque in the walls of the heart's arteries -- is an important predictor of adverse cardiovascular events like heart attacks. Coronary calcium can be detected by computed tomography (CT) scans, but quantifying the amount of plaque requires radiological expertise, time and specialized equipment. In practice, even though chest CT scans are fairly common, calcium score CTs are not. Investigators from Brigham and Women's Hospital's Artificial Intelligence in Medicine (AIM) Program and the Massachusetts General Hospital's Cardiovascular Imaging Research Center (CIRC) teamed up to develop and evaluate a deep learning system ...

LAST 30 PRESS RELEASES:

Lymph node examination should be expanded to accurately assess cancer spread in patients with lung cancer

Study examines prediction of surgical risk in growing population of adults with congenital heart disease

Novel radiation therapy QA method: Monte Carlo simulation meets deep learning for fast, accurate epid transmission dose generation

A 100-fold leap into the unknown: a new search for muonium conversion into antimuonium

A new approach to chiral α-amino acid synthesis - photo-driven nitrogen heterocyclic carbene catalyzed highly enantioselective radical α-amino esterification

Physics-defying discovery sheds new light on how cells move

Institute for Data Science in Oncology announces new focus-area lead for advancing data science to reduce public cancer burden

Korea University College of Medicine successfully concludes the 2025 Lee Jong-Wook Fellowship on Infectious Disease Specialists Program

Girls are happiest at school – for good reasons

Researchers from the University of Maryland School of Medicine discover genetic ancestry is a critical component of assessing head and neck cancerous tumors