Glass, Volume 22 |
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Page 170
The design strength of glass is low because it is brittle and becomes weaker with
time . ... better knowledge of fracture criteria and fatigue life would result in
greater strengthening , higher design strengths , and much wider application of
glass .
The design strength of glass is low because it is brittle and becomes weaker with
time . ... better knowledge of fracture criteria and fatigue life would result in
greater strengthening , higher design strengths , and much wider application of
glass .
Page 181
Immersion in water for a short time increases the strength considerably . Heating
a glass can also change its strength , depending upon its previous history (
Brearly and Holloway , 1963 ; Mould , 1960 ) . If Vycor glass is tested in different ...
Immersion in water for a short time increases the strength considerably . Heating
a glass can also change its strength , depending upon its previous history (
Brearly and Holloway , 1963 ; Mould , 1960 ) . If Vycor glass is tested in different ...
Page 202
origins in high - strength silica show impurities , e . g . , sodium chloride , by
electron microprobe analysis . The detailed mechanism by which these
chemicals lead to cracks is uncertain . G . Effect of Surface Treatment on Glass
Strength From ...
origins in high - strength silica show impurities , e . g . , sodium chloride , by
electron microprobe analysis . The detailed mechanism by which these
chemicals lead to cracks is uncertain . G . Effect of Surface Treatment on Glass
Strength From ...
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Contents
Water in Glass | 75 |
Applications | 121 |
Gel Method for Making Glass | 129 |
Copyright | |
11 other sections not shown
Other editions - View all
Common terms and phrases
acid addition adsorption alkali alkoxide analysis applied atoms band Bartholomew bond bulk calculated cause Ceram Chem chemical clusters coefficient components composition concentration constant contraction crack crystals curve decrease dependence depth determination developed discussed distribution Doremus effect energy equation et al example expansion experimental failure fatigue fibers formation formed fracture function geometry give given glass surfaces groups heating higher hydrated hydrolysis hydrosilicate important increase influence ions Kamiya layer lead length load lower material mean measured melting metal method mole observed obtained occurs oxide phase Phys possible prepared pressure processes produced propagation properties range ratio reaction region samples seal shown in Fig shows silicate glasses SiO2 soda-lime Solids solution strain strength stress structure studies Table technique temperature thermal tion values vapor viscosity water content
Bibliographic information
| Title | Glass, Volume 22 Glass, Minoru Tomozawa Volume 12 of Treatise on materials science and technology |
| Editors | Minoru Tomozawa, R. H. Doremus |
| Publisher | Academic Press, 1977 |
| Original from | the University of Michigan |
| Digitized | 29 Nov 2007 |
| ISBN | 0123418127, 9780123418128 |
| Export Citation | BiBTeX EndNote RefMan |