Treatise on materials science and technology |
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Page 170
The design strength of glass is low because it is brittle and becomes weaker with
time. The prediction of usable lifetime from knowledge of fatigue of glass is quite
uncertain, and results in large safety factors in design. Glass is strengthened by ...
The design strength of glass is low because it is brittle and becomes weaker with
time. The prediction of usable lifetime from knowledge of fatigue of glass is quite
uncertain, and results in large safety factors in design. Glass is strengthened by ...
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 liquids ...
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 liquids ...
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 the ...
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 the ...
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Common terms and phrases
acid activation energy adsorbed adsorption alkali alkali ions alkoxide alkoxide solution atoms autoclave band Bartholomew BK7 glass bond borosilicate borosilicate glass bulk calculated Ceram Chem chemical durability clusters coefficient components concentration crack propagation crack tip crystals curve decrease density dependence desorption diffusion Doremus Dunken effect electron energy equation etching experimental fibers film formation fracture Friedrich-Schiller-Univ function fused silica glass surfaces heating hydrated hydrolysis hydrosilicate hydroxyl increasing infrared isotherm Jena Kamiya layer leached material measured melting metal method mole molecular water molecules Moriya Nogami Non-Cryst nonbridging oxygens oxide phase separation Phys polished powders properties protons ratio reaction refractive index Sakka samples Scholze shown in Fig shows Si02 glass silane silicate glasses soda-lime glass Solids spectra static fatigue strain strength structure surface region technique temperature tensile stress tion ture values vapor velocity viscosity water content water in glass Wiederhorn
Bibliographic information
| Title | Treatise on materials science and technology Volume 22 of Glass, Minoru Tomozawa |
| Authors | Herbert Herman, Minoru Tomozawa |
| Editors | Herbert Herman, Minoru Tomozawa |
| Edition | illustrated |
| Publisher | Academic Press, 1982 |
| Original from | the University of Michigan |
| Digitized | 29 Nov 2007 |
| ISBN | 0123418224, 9780123418227 |
| Length | 320 pages |
| Subjects | › Glass Materials Research Technology & Engineering / Material Science |
| Export Citation | BiBTeX EndNote RefMan |