November 2, 2024

Metamaterial Magic: Scientists Develop New Material That Can Dynamically Tune Its Shape and Mechanical Properties in Real-Time

Scientists have actually created a novel metamaterial that can dynamically tune its shape and homes in real-time, offering unmatched versatility for applications in robotics and wise materials.”The research study team showcased the products potential by showing an “adaptive shock energy absorbing material,” which adjusts its properties in response to unanticipated effects. “This metamaterial, capable of converting digital information into physical details in real-time, will pave the method for ingenious brand-new products that can find out and adjust to their environments,” added Professor Kim.Reference: “Digital Mechanical Metamaterial: Encoding Mechanical Information with Graphical Stiffness Pattern for Adaptive Soft Machines” by Jun Kyu Choe, Jiyoon Yi, Hanhyeok Jang, Heejae Won, Suwoo Lee, Hajun Lee, Yeonwoo Jang, Hyeonseo Song and Jiyun Kim, 18 October 2023, Advanced Materials.DOI: 10.1002/ adma.202304302 The research, released in the January 2024 concern of Advanced Materials, has been picked as a back cover.

Scientists have actually created a novel metamaterial that can dynamically tune its shape and homes in real-time, providing extraordinary versatility for applications in robotics and smart materials.”The research team showcased the materials potential by demonstrating an “adaptive shock energy absorbing product,” which changes its homes in reaction to unexpected effects. “This metamaterial, capable of transforming digital info into physical info in real-time, will pave the way for ingenious brand-new products that can find out and adjust to their environments,” added Professor Kim.Reference: “Digital Mechanical Metamaterial: Encoding Mechanical Information with Graphical Stiffness Pattern for Adaptive Soft Machines” by Jun Kyu Choe, Jiyoon Yi, Hanhyeok Jang, Heejae Won, Suwoo Lee, Hajun Lee, Yeonwoo Jang, Hyeonseo Song and Jiyun Kim, 18 October 2023, Advanced Materials.DOI: 10.1002/ adma.202304302 The research, published in the January 2024 problem of Advanced Materials, has been selected as a back cover.