Treatise on Materials Science and TechnologyHerbert Herman, Minoru Tomozawa, Robert H. Doremus |
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Page 181
... discussed below . Hillig ( 1961 ) found no difference in glass strength between 196 ° C and -268 ° C , at which temperatures delayed failure is absent . - The glass composition can influence the strength indirectly through surface ...
... discussed below . Hillig ( 1961 ) found no difference in glass strength between 196 ° C and -268 ° C , at which temperatures delayed failure is absent . - The glass composition can influence the strength indirectly through surface ...
Page 205
... discussed the variation of um with glass composition . I. Buckling under Compressive Loads Certain shapes , such as thin columns or shells , become elastically unstable at a particular compressive load . Under these conditions small ...
... discussed the variation of um with glass composition . I. Buckling under Compressive Loads Certain shapes , such as thin columns or shells , become elastically unstable at a particular compressive load . Under these conditions small ...
Page 244
... discussed first ( Section III ) , then the material proper- ties of concern are discussed ( Section IV ) , effects of geometry are considered ( Section V ) , and , finally , the combined picture is pre- sented ( Section VI ) ...
... discussed first ( Section III ) , then the material proper- ties of concern are discussed ( Section IV ) , effects of geometry are considered ( Section V ) , and , finally , the combined picture is pre- sented ( Section VI ) ...
Contents
Water in Glass | 75 |
Applications | 121 |
Gel Method for Making Glass | 129 |
Copyright | |
15 other sections not shown
Common terms and phrases
acid activation energy adsorption alkali alkoxide alkoxide method alkoxide solution annealing point atoms autoclave Bartholomew bead seal BK7 glass bond borosilicate borosilicate glass bulk glass calculated Ceram Chem chemical components crack propagation crack tip crystals curve density dependence desorption diameter distribution Dunken effect elastic energy equation etching experimental failure film flaws fused silica geometry glass fibers glass surface H₂O heating Hillig hydrated hydrolysis hydrosilicate increase ions layer liquid load material measured melting metal alkoxides mole Na2O Non-Cryst OH groups Pavelchek and Doremus Phys powders Pyrex ratio reaction refractive index Rekhson samples sandwich seal Section set point shown in Fig shows silicate glasses SiO2 SiO2 glass soda-lime glass Solids spectra static fatigue strain stress release structure Table technique temperature tensile stress thermal expansion TiO2 tion tip radius values vapor Varshneya velocity viscosity water content Wiederhorn Young's modulus ZrO2