Abstract
Results are provided for modelling and experimental studies of hot quasi-isostatic pressing of SHS products of the system Ti ― C ― Ni. Good conformity is demonstrated between experimental data and calculated results using a rheological model for nonlinearly-viscous synthesis products. The model considers presence of a melt and the local nature of solid phase particle flow. Quantitative estimates are obtained for compaction of different zones of the loose shell, the force characteristics of the process, and the nonisostatic coefficient. This information is of interest for production planning and optimization of SHS product compaction.
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