Title of article
Model of effect of environmental attack on flaw growth kinetics of glass
Author/Authors
William Bruno Hillig، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2007
Pages
12
From page
219
To page
230
Abstract
The time rate of extension of a single
slit-like flaw in glass is modeled assuming the same
corrosion mechanism as previously invoked for
modeling delayed failure in glass containing amultiplicity
of microscopic scratches or flaws. The rate
of extension is expressible in terms of the stress
intensity K and is in good agreement with the
experimental results reported by Wiederhorn and
Bolz and others. The model considers a moistureinduced
corrosive attack occurring on the exposed
flaw surfaces to be governed by local chemical
kinetic and thermodynamic considerations, producing
a rounding of the flaw tip. This mechanism
accounts for the possibility of threshold behavior.
The remotely applied stress becomes magnified as
shown by Inglis to require the combined effect of
the flaw length and tip curvature. These geometric
factors in combination with the remotely applied
stress mutually interact through the corrosion
kinetics to define the net rate of flaw extension
Keywords
Glass corrosion · Flaw growthkinetics · Threshold stress · Theoretical modeling
Journal title
International Journal of Fracture
Serial Year
2007
Journal title
International Journal of Fracture
Record number
828490
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