Abstract
The shear rate dependency of the viscosity of three simulated high-level radioactive waste glasses containing 0, 1.2 and 4.5wt% platinum group metals (PGMs) was examined at a temperature range of 1173–1473K by a rotating viscometer. Shear stress when the shear rate equals zero, i.e. yield stress, was also measured by capillary method. The viscosity of the glass containing no PGM was shear rate-independent Newtonian fluid. On the other hand, the apparent viscosity of the glasses containing PGMs increased with decreasing shear rate, and nonzero amount of yield stresses were detected from both glasses. The viscosity and yield stress of the glass containing 4.5wt% PGMs was roughly one to two orders of magnitude greater than the glass containing 1.2wt% PGMs. These viscoplastic properties were numerically expressed by Casson equation.
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