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Will an unexpected Northeastern lab

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    January 31, 2023 10:29 PM EST

    Will an unexpected Northeastern lab finding lead to ‘a new frontier’ for electronics design?

    It was one of those happy accidents of science. Northeastern professor Randall Erb and Ph.D. student Jason Bice were working on a product for a university client—and wound up with an entirely new class of material.Get more news about Electronic Ceramics,you can vist our website!

    Their discovery of an all-ceramic that can be compression-molded into complex parts—an industry breakthrough—could transform the design and construction of heat-emitting electronics, including cellphones and other radio components.

    “Our research group’s lives are very much situated at the bleeding edge of technology,” says Erb, an associate professor of mechanical and industrial engineering who heads the DAPS Lab at Northeastern. “Things break a lot, and every once in a while one of those breaks turns out to be good fortune.”

    Last July, Erb was in his Northeastern lab with Bice, who has since earned a mechanical engineering Ph.D. They were testing an experimental ceramic compound as part of a hypersonic project for an industrial partner when something appeared to go wrong.“We blasted it with a blowtorch and, while we were loading it, it unexpectedly deformed and fell out of the fixture,” Erb says. “We looked at the sample on the floor thinking that it was a failure.”

    Ceramics tend to fracture (or even explode) from thermal shock when subjected to extreme heat changes and mechanical loading. But their sample had deformed gracefully.

    “We tried it a few more times and realized that we could control the deformation,” Erb says. “And then we started compression-molding the material and found that it was a very fast process.”

    Its underlying microstructure uniquely allows the all-ceramic to quickly transmit heat and flow effectively during the molding process. The ceramic can be formed into exquisite geometries and exhibits impressive mechanical strength and thermal conductivity at room temperature, says Erb, whose findings were recently published in Advanced Materials.
    Erb and Bice are developing the product via their startup, Fourier LLC—named after the French mathematician Joseph Fourier, who studied heat flow in ceramics two centuries ago. Fourier has received a $50,000 Spark Fund award from Northeastern’s Center for Research Innovation.

    It’s unique: Thermoformable ceramics, from what we’ve seen and read, don’t really exist,” Bice says. “So it’s a new frontier in materials.”The new product has the potential to introduce two industry improvements, starting with its efficiency as a heat conductor that can cool high-density electronics.

    In general, cellphones and other electronics are fitted with a bulky layer of aluminum, which is necessary to draw heat away from the unit.“Our material can be less than a millimeter thick, which presents a low-profile solution,” Bice says. “It can be molded to conform to the surface that you’re trying to cool.”