Glass, Volume 26Minoru Tomozawa, R. H. Doremus Academic Press, 1977 - Glass |
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Page 246
... thermal contraction , glass exhibits stress relaxation by flowing to relieve the thermal expansion mismatch in the seal . The purpose of this chapter is to explain and quantify the influence of relaxation phenomena on the stresses in ...
... thermal contraction , glass exhibits stress relaxation by flowing to relieve the thermal expansion mismatch in the seal . The purpose of this chapter is to explain and quantify the influence of relaxation phenomena on the stresses in ...
Page 260
... thermal expansion mismatch between the members of the seal . The evolution of thermal strain can only be predicted by using the theory of structural relaxation . The stress relaxation time is proportional to the viscosity , so it is ...
... thermal expansion mismatch between the members of the seal . The evolution of thermal strain can only be predicted by using the theory of structural relaxation . The stress relaxation time is proportional to the viscosity , so it is ...
Page 309
... thermal expansion . These stresses depend on the materials and geometry of the seal and also on the thermal cycle to be used . To predict the importance of these factors , one must understand both stress and structural relaxation . The ...
... thermal expansion . These stresses depend on the materials and geometry of the seal and also on the thermal cycle to be used . To predict the importance of these factors , one must understand both stress and structural relaxation . The ...
Contents
vii | 57 |
RONALD E LOEHMAN 119 Sandia National Laboratories Albuquerque | 119 |
HeavyMetal Fluoride Glasses | 151 |
Copyright | |
3 other sections not shown
Common terms and phrases
absorption coefficient AlF3 analysis Basis for Nuclear bead seal behavior Bendow borosilicate glass bulk glasses bulk modulus CCl4 Ceram chemical composite sphere constant cooling corrosion crystalline crystallization curve dB/km devices dielectric Drexhage effects elastic electrical electron energy fibers fluorohafnate fluorozirconate glasses fused silica glass formation glass transition glass transition temperature glass-clad glass-forming region heavy-metal fluoride glasses increase interface traps ions layers leachability leaching Loehman Lucas materials measured melt metal Mitachi modulus MOSFET Moynihan nitride nitrogen Non-Cryst Nuclear Waste Nuclear Waste Management observed optical optical fibers oxide glasses oxynitride glasses Phys Poulain properties Radioactive Waste radionuclides refractive index Rekhson result sample sandwich seal Scherer seal Eq setting temperature shown in Fig silicon SiO2 SiO2 films Solids solution split ring stiffness ratio stress relaxation structural relaxation studies Subsection substrate surface Table techniques thermal thickness viscoelastic viscosity vitreous vitrification Waste Management waste-glass forms wavelength ZBLA ZBLAN ZrF4