The physical bases of quasi-isostatic compaction and the kinetics of elastically compacting elements in a pressing regime are studied, making it possible to establish the reasons for compact breakage and to create in molds a reliable construction for anti-breakage devices providing preparation of unbroken articles and high quality. A design theory is developed for scale dimensions of compacting elements. Calculation equations are provided for their original dimensions.
Refractories and Industrial Ceramics – Springer Journals
Published: Jul 10, 2009
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