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Hot Free Forging of Iron-Based Powder Pellets

The hand forging of cylindrical powder pellets of small weight (8.0–8.5 g), pressed at 700 MPa from mixtures of iron and graphite powders, was studied. The pre-sintered pellets were heated in charcoal at 1100°C and subjected to double-ended face forging on a heated flat anvil with a hammer with a fl...

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Bibliographic Details
Published in:Powder metallurgy and metal ceramics 2020-09, Vol.59 (5-6), p.290-295
Main Authors: Minitsky, A. V., Loboda, P. I., Yevych, Ya. I., Zakiev, I. M.
Format: Article
Language:English
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Summary:The hand forging of cylindrical powder pellets of small weight (8.0–8.5 g), pressed at 700 MPa from mixtures of iron and graphite powders, was studied. The pre-sintered pellets were heated in charcoal at 1100°C and subjected to double-ended face forging on a heated flat anvil with a hammer with a flat striker and naturally cooled on a steel plate. The vertical setting of the forged pellets was 70-80%. The pellets were cut into samples for analysis. The influence of the graphite content on the compaction process and the mechanical properties of powder materials during hot free face forging have been established. The improvement in the properties of materials with a high graphite content (4 and 12%) was shown to be due to an increase in the number of sections for hot welding of iron grains. It is associated with shear deformation of the pellet material during free forging, contributing to the emergence of new iron–iron contacts. The high characteristics of materials containing 1.7% graphite are due to the action of several mechanisms in parallel: the dissolution of carbon in iron, decrease in total porosity, elimination of interparticle gaps, and grain refinement under shear deformation. The use of a steel shell makes it possible to significantly expand the range of powders and powder composites without rupture of the pellets in hot forging. The combination of experimental results and analytical data allowed us to conclude that hand forging was promising for a quick and cheap screening of formulations for dense powder materials.
ISSN:1068-1302
1573-9066
DOI:10.1007/s11106-020-00161-6