World's smartest shell? New armor material reacts in real time to crashes and impacts
Nature has spent millions of years building better protection.
Think of a turtle's shell, the hard outer shell of a crab, or the shiny inside of a seashell. These aren't just for show.
They help animals survive by spreading out force, soaking up impacts, and bending instead of breaking.
Now, engineers are using those same ideas to create a new kind of man-made material.
Inspired by seashells in particular, they've built a layered synthetic material that doesn't just take a hit but adapts to it.
Each layer is designed to react differently, and all the layers work together to soften the blow.
The new study, led by civil and environmental engineering professor Shelly Zhang from the University of Illinois Urbana-Champaign and professor Ole Sigmund from the Technical University of Denmark, shows how this material could one day make things like car bumpers or wearable protection much smarter and safer.
A practical way forward might seem simple: just copy how natural protective layers work.
But the researchers chose to go a step further. Instead of reverse-engineering nature, they developed a method to program individual layers to work together under stress.
One natural material in particular stood out: nacre, or mother-of-pearl. Found inside seashells of mollusks like oysters and abalones, nacre is made of microscopic layers that make it both hard and surprisingly tough.
Scientists have long admired it for how well it absorbs force without cracking.
Inspired by nacre's toughness, they designed synthetic layers that respond in a coordinated, adaptive way.
'We landed on the idea to design multilayered materials with each layer being capable of exhibiting different properties and behaviors,' Zhang said.
This collective behavior marks a shift from earlier approaches that treated layers as isolated or static.
In this new design, the layers actively collaborate, changing how force travels through the material.
Buckling is what happens when a material suddenly bends or collapses under pressure, like when a metal can crumples under too much force.
In most cases, it signals failure. But here, the researchers use it as a controlled response.
Depending on the impact, the synthetic layers buckle in stages. This staggered response helps spread out the force and absorb more energy than traditional shock-absorbing materials.
'This work was born out of a discussion with my collaborator, Professor Sigmund, about how we already can achieve some very extreme behaviors, but there's always a physical limit or upper bound that single materials can achieve, even with programming,' Zhang said.
'That led us to consider what kind of engineering could enable some of the crazy material behaviors needed in real life. For example, extreme buckling behaviors could help dissipate energy for things like car bumpers.'
The researchers didn't just assign properties to each layer. They programmed the micro-level connections between them, creating a material that acts like a single, intelligent unit.
'Our new framework presents several advantages over existing methodologies for nonlinear stress-strain responses,' Zhang said.
'It optimizes nacre-like multiple layers along with their interconnections in a continuum setup, which significantly expands the design space compared to similar work involving a single-layer setup or lattice structures.'
When the team built physical prototypes, the materials didn't behave exactly as the models predicted. But the researchers saw that as useful.
'The discrepancy we found is something that will always happen in real life,' Zhang said.
'But we can harness this information to intentionally program the sequence of the buckling of each of the individual cells in assembly, store some information inside, and then later we can decode the information. It was fascinating to capture this discrepancy and for it to end up providing information needed to improve the work.'
Zhang says large-scale manufacturing is still a hurdle. But the core idea is already a breakthrough. 'I think it works the same for materials,' she said.
'When different materials collectively work together, they can do things that are much more impactful than if they do things individually.'
The study findings are published in the journal Science Advances.
Hashtags
Try Our AI Features
Explore what Daily8 AI can do for you:
Comments
No comments yet...
Related Articles
Fox News
10 hours ago
- Fox News
Common menopause medication might prevent breast cancer while treating hot flashes
A drug intended to treat menopause symptoms could double as breast cancer prevention. New research from Northwestern University in Illinois found that Duavee, a Pfizer-made drug, "significantly reduced" breast tissue cell growth, which is a major indicator of cancer progression. A phase 2 clinical trial included 141 post-menopausal women who had been diagnosed with ductal carcinoma in situ (DCIS), also known as stage 0 breast cancer, according to a press release from Northwestern. This non-invasive breast cancer affects more than 60,000 American women each year, often leading to an outcome of invasive breast cancer. The women were separated into two groups — one received Duavee and the other took a placebo for a month before undergoing breast surgery. Duavee is a conjugated estrogen/bazedoxifene (CE/BZA) drug, which combines estrogen with another medication that minimizes the potential harmful side effects of the hormone. "The key takeaway from the study is that CE/BZA slows the growth (proliferation) of cells in milk ducts of DCIS that expressed the estrogen receptor significantly more than placebo," Dr. Swati Kulkarni, lead investigator and professor of breast surgery at Northwestern University Feinberg School of Medicine, told Fox News Digital. Another major finding is that the quality of life did not differ significantly between the two groups, but patients who took the CE/BZA reported fewer hot flashes during the study, she noted. "This would be expected, as the drug is FDA-approved to treat hot flashes." "What excites me most is that a medication designed to help women feel better during menopause may also reduce their risk of invasive breast cancer." Kulkarni presented the study last week at the American Society of Clinical Oncology (ASCO) Annual Meeting in Chicago. The findings are preliminary and have not yet been published in a medical journal. "What excites me most is that a medication designed to help women feel better during menopause may also reduce their risk of invasive breast cancer," said the doctor, who is also a Northwestern Medicine breast surgeon. Women who face a higher risk of breast cancer — including those who have experienced "high-risk lesions" — and who also have menopausal symptoms are most likely to benefit from the drug, according to Kulkarni. "These women are typically advised against standard hormone therapies, leaving them with few menopausal treatment options," the release stated. The researchers said they are "encouraged" by these early results, but more research is required before the medication can be considered for approval as a breast cancer prevention mechanism. "Our findings suggest that CE/BZA may prevent breast cancer, but larger studies with several years of follow-up are needed before we would know this for sure," Kulkarni told Fox News Digital. Dr. Sheheryar Kabraji, chief of breast medicine at the Roswell Park Comprehensive Cancer Center in Buffalo, New York, was not involved in the study but commented on the findings. "While intriguing, this study is highly preliminary, and more research will be needed before we can conclude that conjugated estrogen/bazedoxifene (CD/BZA), a form of the hormone estrogen commonly prescribed to address symptoms of menopause, prevents invasive breast cancer or is effective at reducing cancer risk," she told Fox News Digital. Kabraji also noted that the study focused on reducing levels of one specific protein, "which does not always predict reduced recurrence of breast cancer." "This study did not directly show that CE/BZA treatment reduces the risk of DCIS recurrence or development of invasive cancer," she noted. "While intriguing, this study is highly preliminary." "Importantly, however, patients who received this therapy experienced no worsening of quality of life, and saw improvement in vasomotor symptoms, such as hot flashes. If found to be effective in preventing breast cancer, CE/BZA is likely to have fewer side effects than current medications used for breast cancer prevention." For more Health articles, visit Lead researcher Kulkarni emphasized that this medication is not for the treatment of invasive breast cancer or DCIS. "Right now, we can say that women who are concerned about their risk of developing breast cancer can consider this medication to treat their menopausal symptoms," she added.
Fox News
a day ago
- Fox News
Dead Sea Scrolls could be even older than previously thought, according to new study
Print Close By Andrea Margolis Published June 05, 2025 The Dead Sea Scrolls may be even older than researchers thought, according to a new study driven by an artificial intelligence (AI) model. A group of researchers from the Netherlands, Italy and Denmark recently published their findings in the journal PLOS One on June 4. The researchers said they developed an AI-based date-prediction model named Enoch, a nod to the biblical patriarch of the same name. ANCIENT CHRISTIAN FIGURINES DISCOVERED IN 1,500-YEAR-OLD DESERT GRAVES Enoch "was trained as a machine learning-based date-prediction model applying Bayesian ridge regression on established handwriting-style descriptors," according to the study. In order to date the scrolls, the model analyzed each one's handwriting style. Researchers also integrated radiocarbon dating methods — and found that most of the scrolls were at least a generation older than previously thought. Previous estimates placed the scrolls between 150 and 50 B.C., but the model found that many of the scrolls date to around 200 B.C. "There are no compelling paleographic or historical reasons that preclude these older dates as reliable time markers." "Enoch's style-based predictions are often older than traditionally assumed paleographic estimates, leading to a new chronology of the scrolls and the re-dating of ancient Jewish key texts that contribute to current debates on Jewish and Christian origins," the paper states. LITTLE GIRL DISCOVERS 3,800-YEAR-OLD AMULET WITH TIES TO BIBLICAL PEOPLE DURING FAMILY TRIP The researchers also indicate that the new dates are "realistic." "There are no compelling paleographic or historical reasons that preclude these older dates as reliable time markers," the authors said. For more Lifestyle articles, visit The scrolls, found in desert caves near the Dead Sea in the 1940s and 1950s, date between the third century B.C. to the first century A.D. They offer a wealth of knowledge about ancient Judaism, with many religious texts during the Second Temple period that were previously unknown. CLICK HERE TO SIGN UP FOR OUR LIFESTYLE NEWSLETTER Since their discovery, the scrolls have attracted a great amount of interest from both scholars and the public at large. In 2021, Israeli researchers uncovered dozens of new Dead Sea Scroll fragments. CLICK HERE TO GET THE FOX NEWS APP In April, the Ronald Reagan Presidential Library showcased a special collection of eight ancient Jewish manuscripts as part of its exhibition on the Dead Sea Scrolls. Print Close URL
Forbes
a day ago
- Forbes
What Are The Best Wildflowers To Attract Bees?
Not all commercial wildflower seed mixes are created equal in the eyes of our insect overlords. Now that summer has finally arrived, people are planting wildflower seed mixes to attract and support the dwindling number and variety of wild bees and other beneficial insect pollinators. Some of us create our own wildflower seed mixes whilst others purchase ready-made commercial seed mixes. Additionally, annual flowering seed mixes are often planted and grown in public gardens, parks, along roadsides, in traffic verges and in other urban areas. Farmers sometimes plant these mixes alongside food crops to enhance pollination. But some of the flower species included in these mixes may not be the most pollinator-friendly. So this raises the question: which wildflowers species are best for supporting our struggling insect friends? Is it best to plant native wildflowers seeds instead of non-natives? Should seed mixes contain only flowering plants, or is including some non-flowering plants in the mix also helpful? An international collaboration of scientists based at institutions throughout the UK and Denmark pondered these same questions. To find some answers, they surveyed 477 scientific papers, field tested four commercially available seed mixes and then developed and field tested two novel experimental wildflower seed mixes of their own by counting the numbers of beneficial pollinators – bumblebees, solitary bees and hoverflies – that visited the wildflowers. It's important to remember that ensuring a continuous and overlapping supply of flowers is essential to supporting a diverse population of wild pollinators, by accommodating different forage preferences and flight periods of different pollinator species. And of course, one mustn't forget the human factor: some of these wildflower seed mixes were simply more aesthetically pleasing to the public. Perhaps surprisingly, the study revealed that seed mixes containing non-native flowering plants along with native species had higher establishment rates and longer flowering periods. The study also finds that of those seed mixes that attracted pollinating insects in higher numbers, a small number of key wildflower species were visited frequently, and these preferred flower species differed between pollinator groups. But because many urban areas are more alike than they are different, are these 'best wildflower' species the same across urban areas in, say, the United States, Canada or Australia? 'The study was carried out in the UK, so the list of species is most appropriate for northern Europe,' the study's senior author, botanist Natasha de Vere, told me in email. Professor de Vere is Professor and Curator of Botany at the Natural History Museum of Denmark, University of Copenhagen, where she is an expert on plant-pollinator interactions and the link between biodiversity and human well-being. That said, Professor de Vere and collaborators are still testing their novel wildflower seed mixes in different climates. 'We have just planted one of our seed mixes at the Natural History Museum of Denmark in the Botanical Garden so we can see how well it does in the Danish climate,' Professor de Vere explained in email. Do wildflower seed mixes provide everything that wild pollinators need? 'Annual seed mixes can provide a beautiful and colourful display of flowers in gardens and parks that can help to provide nectar and pollen for pollinators,' Professor de Vere replied in email. 'But seed mixes cannot replace abundant flowering plants within the wider landscape and it is important to think about all the needs of pollinators. As well as sufficient flowers through the year, bees need suitable habitat for foraging such as hollow cavities, bare ground and a range of grass height." You mentioned hoverflies in your study. Do hoverflies have different needs from bees? 'The larvae of different hoverfly species can have very different needs: some are predators on plants, whilst some need ponds or decaying wood,' Professor de Vere said in email. The larvae of other hoverflies are voracious predators of common pest insects, such as aphids. Keeping in mind the sensitivities of bees and the appetites of hoverfly larvae, it is strongly recommended not to use either herbicides or pesticides because these chemicals poison and kill the very insects we are working to protect and support. Based on their findings, the study's authors recommend adding these annual 'pollinator-friendly' wildflower seeds to your mixes to attract and support a variety of beneficial pollinating insects: Lucy Witter, Laura Jones, Abigail Lowe, Will Ritchie, Peter Dennis, Gemma Beatty, and Natasha de Vere (2025). The pick of the plot: An evidence-based approach for selecting and testing suitable plants to use in annual seed mixes to attract insect pollinators, Plants, People, Planet | doi:10.1002/ppp3.70041 © Copyright by GrrlScientist | hosted by Forbes | Socials: Bluesky | CounterSocial | LinkedIn | Mastodon Science | MeWe | Spoutible | SubStack | Threads | Tumblr | Twitter
