Nanoscale damage during fracture in silica glass | Zendy

Daniel Bonamy | Zendy; S. Prades | Zendy; Cindy L. Rountree | Zendy; Laurent Ponson | Zendy; Davy Dalmas | Zendy; E. Bouchaud | Zendy; K. RaviChandar | Zendy; Claude Guillot | Zendy

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Nanoscale damage during fracture in silica glass

Author(s) -

Daniel Bonamy,

S. Prades,

Cindy L. Rountree,

Laurent Ponson,

Davy Dalmas,

E. Bouchaud,

K. RaviChandar,

Claude Guillot

Publication year - 2006

Publication title -

international journal of fracture

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.973

H-Index - 95

eISSN - 1573-2673

pISSN - 0376-9429

DOI - 10.1007/s10704-006-6579-2

Subject(s) - coalescence (physics) , nanoscopic scale , nucleation , materials science , cavitation , fracture mechanics , fracture (geology) , composite material , mechanics , nanotechnology , chemistry , physics , organic chemistry , astrobiology

We report here atomic force microscopy experiments designed to uncover the nature of failure mechanisms occuring within the process zone at the tip of a crack propagating into a silica glass specimen under stress corrosion. The crack propagates through the growth and coalescence of nanoscale damage spots. This cavitation process is shown to be the key mechanism responsible for damage spreading within the process zone. The possible origin of the nucleation of cavities, as well as the implications on the selection of both the cavity size at coalescence and the process zone extension are finally discussed.

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