Publication

Ultralong, complexly structured micro- and nanoscale metallic glasses and fibers

Grégoire Courtine, Fabien Sorin, Wei Yan, Inès Richard
2020
Patent

Abstract

The present invention and its embodiments propose a simple, unique, and scalable method for producing extremely long, highly uniform, and well-ordered micro- and nanoscale metallic glasses via thermal drawing the method comprising at least the steps of preparing a macroscopic scale first preform assembled from compatible materials for co-drawing such as a metallic glass structure encased in a supporting first cladding made of a polymer or glass; thermally drawing the first preform into a first fiber.

Official source

https://infoscience.epfl.ch/record/277323?ln=en

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Ultralong, complexly structured micro- and nanoscale metallic glasses and fibers

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Modeling the mechanics and rheology of porous and granular media: an elastoplastic continuum approach

Local excitations in amorphous solids

Solidity without inhomogeneity: perfectly homogeneous, weakly coupled, UV-complete solids

Modeling the mechanics and rheology of porous and granular media: an elastoplastic continuum approach

Local excitations in amorphous solids

Solidity without inhomogeneity: perfectly homogeneous, weakly coupled, UV-complete solids