Improving microstructural homogeneity of flash sintered SiC ceramics
In this project, flash sintered SiC are produced at a lower temperature in a short period of time. The electric field provides localized heating which leads to densification through field assisted mass transport. This project suggests a suitable current and power limit for maximising relative...
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| Format: | Final Year Project |
| Language: | English |
| Published: |
Nanyang Technological University
2024
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| Online Access: | https://hdl.handle.net/10356/176092 |
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| Institution: | Nanyang Technological University |
| Language: | English |
| Summary: | In this project, flash sintered SiC are produced at a lower temperature in a short period of
time. The electric field provides localized heating which leads to densification through field
assisted mass transport.
This project suggests a suitable current and power limit for maximising relative density of SiC
ceramics. The SiC ceramics was first prepared by cold press using hydraulic pressing machine
before sintering. The use of SEM-EDX allows further analysis of samples to mitigate
oxidation issue.
The results gathered demonstrate that with low temperature, high current, low power limit
and sintering aid the relative density of SiC can be further improved. The SiC ceramic is also
best densified using a dogbone sample where heating is distributed evenly. Based on the
results, relative density of 61.2% is achievable by increasing current density limit to
approximately 500 mA/mm².
The control of heating rate allows the flash sintering to be
carried out at constant temperature. To further improve homogeneity in microstructure, the
use of sintering aids such as H3BO3 can also be implemented.
As suggested in this project, there are several aspects where densification can be further
improved. This suggestion may potentially be used in future work of flash sintering of SiC
research. |
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