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Graphitization of Glassy Carbon after Compression at Room Temperature

Authors :
Shiell, Thomas
McCulloch, D. G.
McKenzie, D. R.
Field, M. R.
Haberl, B.
Boehler, R.
Cook, B. A.
de Tomas, C.
Suarez-Martinez, I.
Marks, N. A.
Bradby, Jodie
Shiell, Thomas
McCulloch, D. G.
McKenzie, D. R.
Field, M. R.
Haberl, B.
Boehler, R.
Cook, B. A.
de Tomas, C.
Suarez-Martinez, I.
Marks, N. A.
Bradby, Jodie
Source :
Physical review letters
Publication Year :
2020

Abstract

Glassy carbon is a technologically important material with isotropic properties that is nongraphitizing up to ∼3000 °C and displays complete or “superelastic” recovery from large compression. The pressure limit of these properties is not yet known. Here we use experiments and modeling to show permanent densification, and preferred orientation occurs in glassy carbon loaded to 45 GPa and above, where 45 GPa represents the limit to the superelastic and nongraphitizing properties of the material. The changes are explained by a transformation from its sp2 rich starting structure to a sp3 rich phase that reverts to fully sp2 bonded oriented graphite during pressure release.

Details

Database :
OAIster
Journal :
Physical review letters
Publication Type :
Electronic Resource
Accession number :
edsoai.on1291829261
Document Type :
Electronic Resource