Surface structural relaxation of silica glass takes place more rapidly than
bulk structural relaxation when the glasses are heat-treated in the presen
ce of water vapor at temperatures below the glass transition temperature. I
t appears that water enters into silica glass and accelerates the structura
l change. When silica glass with high hydroxyl content is heated in a relat
ive dry atmosphere, the hydroxyl concentration in the surface decreases. Ye
t, surface structural relaxation still occurs more rapidly than bulk struct
ural relaxation during such dehydration experiments. For commercially avail
able silica glasses, water exists in the glass predominantly as hydroxyl, b
ut a small fraction can exist as molecular water. The observed surface stru
ctural relaxation phenomena are consistent with the postulation that surfac
e structural relaxation is promoted by the presence of this immeasurably sm
all quantity of molecular water rather than the hydroxyl water. (C) 2001 El
sevier Science B.V. All rights reserved.