Glass ScienceThis edition retains its pedagogical structure but has been extensively revised and updated. Features advances in the field pertaining to the latest developments on fatigue and fracture as well as environmental aspects of some hazardous materials and their effects on glass during long term storage. Contains a new description of the oxidation state of glass and its components based on the phase rule. Includes a new chapter on chemical durability with recent information regarding corrosion of glass and radioactive waste disposal. |
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Page 28
... electron microscope . 20,21 However , a careful study of thin slivers of different vitreous silicas by transmission in the electron microscope reveals no structure down to a resolution of about 20 Å.22 In dark - field electron ...
... electron microscope . 20,21 However , a careful study of thin slivers of different vitreous silicas by transmission in the electron microscope reveals no structure down to a resolution of about 20 Å.22 In dark - field electron ...
Page 87
... electron micrographs.14 The replica electron micrograph of Fig . 8 shows that these crystals grow in the lithium - rich matrix of the phase - separated glass , embedding the silica - rich droplets . If a spherulite is defined as a ...
... electron micrographs.14 The replica electron micrograph of Fig . 8 shows that these crystals grow in the lithium - rich matrix of the phase - separated glass , embedding the silica - rich droplets . If a spherulite is defined as a ...
Page 182
... ( electron holes ) charge carriers , whereas thermoelectric power measurements point to n - type or electrons as carriers . Examples of Hall - effect measurements with the mobilities found are given in Table 1 , as summarized by Roiler.27 ...
... ( electron holes ) charge carriers , whereas thermoelectric power measurements point to n - type or electrons as carriers . Examples of Hall - effect measurements with the mobilities found are given in Table 1 , as summarized by Roiler.27 ...
Contents
Introduction | 1 |
Part One Formation and Structure of Glasses | 9 |
Glass Formation | 11 |
Copyright | |
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activation energy adsorbed adsorption alkali alkali ions alkali silicate glasses alkaline earth aluminosilicate aluminum atoms band binary bonds borate borosilicate glass calculated cations Ceram Chapter Chem chemical concentration constant coordination number crack crystalline crystallization decreases dependence dielectric diffusion coefficient discussed disilicate dissolved electrical conductivity electron equation equilibrium experimental fracture frequency function fused silica glass containing glass electrodes glass formation glass surface glass transition glass-forming helium hydrated hydrogen ions hydroxyl groups increase internal friction ion exchange ionic kcal/mole layer liquid lithium lower measured mechanism melting metal mole molecular molecules Na₂ Noncryst nucleation oxide oxygen particles peak phase separation Phys potential properties Pyrex R. H. Doremus reaction sample shown in Fig silicate glasses silicon silicon-oxygen SiO2 soda-lime glass sodium ions sodium silicate sodium silicate glasses Solids solubility strength stress structure tetrahedra theory velocity viscosity vitreous silica