Scientists fused natural silk into a super-strong material rivaling Kevlar for implants and advanced tech uses.
Researchers from Tufts University, Imperial College London, and the University of Michigan have developed a new way to turn natural silk into an ultra-strong solid material without dissolving the fibers or using synthetic additives.
The resulting material rivals advanced composites in strength and toughness while remaining biocompatible and tunable for medical applications. Instead of breaking silk down into proteins and rebuilding it, the team fused aligned silk fibers directly using controlled heat and pressure. The process preserves much of silk’s original molecular structure, allowing the final material to retain the natural strength of the fibers.
The researchers said the fused silk outperformed materials like bone and wood in tensile toughness and came close to Kevlar. It also showed higher ballistic impact resistance than some carbon fiber reinforced polymer composites.
“The process breaks down the natural fibers into the individual silk fibroin proteins before processing them into new shapes, so we lose a lot of the inherent strength of the original fibers,” said Chunmei Li, research assistant professor at Tufts School of Engineering. “With this new method, there’s no need to dissolve the silk—we simply align the fibers and apply heat and pressure, and they fuse together in one step.
”The material starts with commercially available silk moth cocoon fibers used in textile manufacturing. Researchers first removed sericin, the sticky coating around the fibers, using a mild sodium carbonate solution. The fibers were then aligned and hot-pressed under carefully controlled temperatures and pressures. During heating, the more mobile parts of the silk protein structure softened enough to bond neighboring fibers together while preserving the crystalline regions responsible for strength and flexibility.
“The silk is like a composite,” said David Kaplan, Stern Family Endowed Professor of Engineering at Tufts. “There is a more mobile, amorphous phase of the fiber proteins, and there is the part of the protein chain that folds to form sheet-like surfaces that stack up into crystalline structures. ” Researchers found an optimal processing window between 257 and 419 degrees Fahrenheit and pressures ranging from 1,900 to 9,800 atmospheres.
Too little heat or pressure created weaker structures, while excessive temperatures made the material brittle. The final structure resembles wood at a microscopic level, with aligned fiber bundles bonded together to distribute stress efficiently. According to the researchers, this hierarchical structure contributes to the material’s unusual combination of toughness and durability. Researchers found they could tune how quickly the material degrades by adjusting processing conditions.
Less densely fused versions allowed cells to infiltrate gradually, while denser forms resisted breakdown and remained stable for longer periods.could eventually be used in orthopedic implants such as plates, screws, and fixation devices for bone fractures because of its strength and biocompatibility. Scientists at the University of Michigan also discovered that fused silk can polarize terahertz radiation, which is used in airport scanners, medical imaging, and chemical detection systems.
The team said the property could support future 6G communication technologies capable of transmitting data far faster than today’s 5G networks. With over a decade-long career in journalism, Neetika Walter has worked with The Economic Times, ANI, and Hindustan Times, covering politics, business, technology, and the clean energy sector. Passionate about contemporary culture, books, poetry, and storytelling, she brings depth and insight to her writing.
When she isn’t chasing stories, she’s likely lost in a book or enjoying the company of her dogs.
Advanced Materials Biocompatible Implants Fused Silk Kevlar Alternative Silk Composites Silk Materials Terahertz Radiation
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