The Effect of Mechanical Activation on the Compaction and Structurization of Hot-Pressed ZrB2 Ceramics

The effect of preliminary mechanical activation on the structural and physical state of the starting reagents, phase formation, and structure of sintered 80 vol.% ZrB 2 –15 vol.% SiC–5 vol.% B 4 C ceramics was studied. The starting powders were mechanically activated in steel drums of an AIR water-c...

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Published in:Powder metallurgy and metal ceramics 2021-05, Vol.60 (1-2), p.69-77
Main Authors: Liudvinskaya, T.O., Mosina, T.V., Neshpor, I.P., Grigoriev, O.N., Bega, M.D., Golovkova, M.E., Stepanenko, A.V., Panashenko, V.M., Subbotin, V.I., Zubarev, A.A.
Format: Article
Language:English
Subjects:
Activated sintering
Argon
Ball milling
Boron carbide
Ceramic powders
Ceramics
Characterization and Evaluation of Materials
Chemistry and Materials Science
Composites
Density
Die heating
Glass
Hot pressing
Induction heating
Materials Science
Metallic Materials
Natural Materials
Particle size distribution
Reagents
Refractory materials
Silicon carbide
Sintering (powder metallurgy)
Zirconium compounds
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Summary:The effect of preliminary mechanical activation on the structural and physical state of the starting reagents, phase formation, and structure of sintered 80 vol.% ZrB 2 –15 vol.% SiC–5 vol.% B 4 C ceramics was studied. The starting powders were mechanically activated in steel drums of an AIR water-cooled high-energy ball mill at a rotation speed of 1440 rpm in an argon atmosphere. The mechanical activation lasted 15, 30, 60, and 120 min. The samples were produced by hot pressing using an SPD-120 pilot plant with induction heating in graphite dies in a CO–CO 2 atmosphere. The particle-size distribution was determined by laser diffraction. Metallographic studies were conducted using a Superprobe 733 electron microscope (Japan). The mechanical activation of ultrahigh-temperature ceramics was found to influence the compaction kinetics of the samples. When mechanical activation time increased from 15 to 120 min, the sample density increased by 10% in the hot pressing process at 2150 ° C (15 min). The samples had 5–10 μm particles. During hot pressing, the ZrB 2 matrix phase acquired a skeletal structure: the SiC phase in an amount of 15 vol.% acted as reinforcement in partial dissociation and B 4 C in an amount of 5 vol.% acted as a boron and carbon donor. Preliminary mechanical activation of the 80 vol.% ZrB 2 –15 vol.% SiC–5 vol.% B 4 C powder mixture intensified sintering in the temperature range 2100–2150°C, featuring the formation of secondary phases and recrystallization (at 2150°C), and promoted high density and low porosity of the hot-pressed ceramics. The studies showed that the densest samples were sintered from the powder mixture mechanically activated for 120 min. The density of the samples hot-pressed at 2100°C (5 min) and 2150°C (15 min) increased.
ISSN:1068-1302
1573-9066
DOI:10.1007/s11106-021-00216-2