Clarkson University researchers have developed an artificial intelligence tool that can uncover the mathematical equations ...
Professor Stephen Euston and Dr. Hector Mora Gallego from the School of Engineering and Physical Sciences are working with ...
Over the past few decades, engineers have developed various devices that can create holograms, three-dimensional (3D) or ...
The shape of biological structures, ranging from flower petals to the limbs or organs of animals, is often naturally best ...
Citing: Please see the How to Cite section at the end of this document if using the VBRc for your research. Further documentation available at https://vbr-calc.github.io/vbr/. The Very Broadband ...
Young’s modulus and shear modulus are essential mechanical parameters for evaluating subsurface rocks, playing a pivotal role in the exploration and development of unconventional resources. Young’s ...
Three-dimensional shaping of thin sheets and membranes is a ubiquitous feature of materials science and underlies diverse biological processes, ranging from large-scale morphogenesis to molecular drug ...
Castor oil (CO)-derived polyurethanes (PUs), denoted CPUs, are drastically limited because they cannot be reprocessed, reshaped, or recycled and because they show low strength, poor toughness, and ...
Most shape-morphing materials rely on nonrenewable fossil resources or finely extracted biomaterials, which need strict reaction control, elaborate processing equipment, or prefabricated templates to ...
Gelatin is a commonly used material for analog experiments in geophysics, investigating fluid-filled fracture propagation (e.g., magmatic dikes), as well as fault slip. Quantification of its physical ...
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