Glass, Volume 26 |
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Page 256
log ( fluidity ) , log ( conductivity ) ] changes nearly linearly with temperature T
along a line with slope dpl . In the glass transition ( or transformation ) range , the
slope changes from that characteristic of the liquid Qpl to that characteristic of the
...
log ( fluidity ) , log ( conductivity ) ] changes nearly linearly with temperature T
along a line with slope dpl . In the glass transition ( or transformation ) range , the
slope changes from that characteristic of the liquid Qpl to that characteristic of the
...
Page 261
During continuous cooling , which is equivalent to a series of small temperature
jumps followed by short holds , a seal with a thick glass layer will ... At lower
temperatures , the tension may be reduced by the faster contraction of the metal .
During continuous cooling , which is equivalent to a series of small temperature
jumps followed by short holds , a seal with a thick glass layer will ... At lower
temperatures , the tension may be reduced by the faster contraction of the metal .
Page 314
... ( 5 ) Glass transition temperature measured during cooling Arbitrary reference
temperature Setting temperature of a seal with stiffness ratio n Setting
temperature of composite sphere with core volume fraction V Setting temperature
of split ring ...
... ( 5 ) Glass transition temperature measured during cooling Arbitrary reference
temperature Setting temperature of a seal with stiffness ratio n Setting
temperature of composite sphere with core volume fraction V Setting temperature
of split ring ...
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Contents
Nuclear Waste Glasses | 57 |
Oxynitride Glasses | 119 |
HeavyMetal Fluoride Glasses | 151 |
Copyright | |
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Common terms and phrases
absorption addition analysis applications Basis bead behavior bulk calculated cause Ceram charge chemical coefficient components compositions conductivity constant containing cooling crystallization curve dependence described devices discussed Drexhage effects elastic electrical electron energy equation et al example fibers field Figure films fluoride glasses fluorozirconate function given heating heavy-metal fluoride glasses illustrated important increase indicated interface ions layers leaching less loss lower materials measured melt metal method nitrogen Nuclear Waste observed obtained occur optical oxide oxynitride glasses Phys physical Poulain predict prepared present produced properties range ratio reduced region relatively relaxation reported result sample scattering seal shown shows silica silicate glasses silicon similar SiO2 SizN4 Solids solution strain stress stress relaxation structural studies surface Table techniques temperature thermal thickness thin transition traps values viscosity Waste Management waste-glass wavelength York
Bibliographic information
| Title | Glass, Volume 26 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 |