Title of article
Comparison of residual carbon content and morphology of B4C powders synthesized under different conditions
Author/Authors
Feiz ، Faridaddin Ceramics Department - Materials and Energy Research Center (MERC) , Nikzad ، Leila Ceramics Department - Materials and Energy Research Center (MERC) , Majidian ، Hudsa Ceramics Department - Materials and Energy Research Center (MERC) , Salahi ، Esmaeil Ceramics Department - Materials and Energy Research Center (MERC)
From page
153
To page
157
Abstract
In this article, the impact of different B4C synthesis methods on the amount of residual carbon and the final morphology of the prepared ceramic particles was investigated. The main materials for the synthesis of B4C were glucose and boric acid, and the effects of adding tartaric acid and performing mechanical activation were studied. For this purpose, two methods of carbon dissolution and boron carbide oxidation were used to determine the amount of residual carbon in the ceramic products. The results of the investigations on the sample synthesized in optimal conditions showed that if additives and mechanical activation are not used, about 7 wt% of carbon will remain in the synthesized powder. The amount of carbon decreased to 5.7 wt% with mechanical activation, but the best result was obtained with the addition of tartaric acid, in which the amount of impurity dropped to 3.3 wt%. Finally, the size and morphology of B4C particles and carbon impurities were observed and compared using a scanning electron microscope.
Keywords
Synthesis , Boron carbide , Residual carbon , Morphology , SEM
Journal title
Synthesis and Sintering
Journal title
Synthesis and Sintering
Record number
2772744
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