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20-11-2018

Synthesis and densification of zirconium diboride prepared by carbothermal reduction

Authors: Tao Gui, Xing-Ming Wang, Lei Yang, Yu-Yang Liu, Xue Bai, Li-Jun Wang, Bo Song

Published in: Rare Metals | Issue 12/2018

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Abstract

Using boron powder as additive, the preparation of zirconium diboride (ZrB₂) by carbothermal reduction was investigated. The results show that the carbothermal reduction cannot be completely done until the temperature is more than 1900 °C. The ZrB₂ particles prepared without boron (B) additive at 1900 °C for 3 h are rodlike and show a preferential grain growth along [001] direction. B additive changes the heat effect of the raw materials. With B additive, the morphology of ZrB₂ particles turns to be regular shape. The average particle size is about 3.6 μm with 2.5 wt% B additives. With more B additive, the shape of particles turns to be round like and the average particle size is decreased to 2.3 μm when 5 wt% B is added. The existence of oxides in grain boundary is a key factor to keep ZrB₂ ceramic from deep densification. Using ZrB₂ powder prepared with 5 wt% B additives, by controlling carbon content in ZrB₂ powder, ZrB₂ ceramic with 93% relative density is hot-pressed.

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Title: Synthesis and densification of zirconium diboride prepared by carbothermal reduction
Authors: Tao Gui
Xing-Ming Wang
Lei Yang
Yu-Yang Liu
Xue Bai
Li-Jun Wang
Bo Song
Publication date: 20-11-2018
Publisher: Nonferrous Metals Society of China
Published in: Rare Metals / Issue 12/2018
Print ISSN: 1001-0521
Electronic ISSN: 1867-7185
DOI: https://doi.org/10.1007/s12598-018-1178-8

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