방전 플라즈마 소결법으로 제조된, AlN-MgO 소결체의 미세구조와 열적, 기계적 특성
AlN-MgO composites with different compositions were prepared by spark plasma sintering, and the effects of their composition on their microstructure, thermal properties, and mechanical properties were systemically investigated. MgO compositions in the AlN-MgO composites were controlled from 20 to 80...
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| Published in | 대한금속·재료학회지, 62(5) Vol. 62; no. 5; pp. 367 - 376 |
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| Main Authors | , , , , , , , , , , , , , , , , , |
| Format | Journal Article |
| Language | Korean |
| Published |
대한금속재료학회
05.05.2024
대한금속·재료학회 |
| Subjects | |
| Online Access | Get full text |
| ISSN | 1738-8228 2288-8241 |
| DOI | 10.3365/KJMM.2024.62.5.367 |
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| Abstract | AlN-MgO composites with different compositions were prepared by spark plasma sintering, and the effects of their composition on their microstructure, thermal properties, and mechanical properties were systemically investigated. MgO compositions in the AlN-MgO composites were controlled from 20 to 80 wt%. The results indicated that a phase transition did not occur during the sintering process, and different solid solutions were formed within the MgO and AlN lattices. The AlN-MgO composites exhibited finer-grain microstructures than those of the sintered pure AlN and MgO samples. Transmission electron microscopy analysis showed that both oxygen-rich, low-density grain boundaries and clean boundaries with spinel phases were present in the composites. The sintered pure AlN sample exhibited the highest thermal conductivity (53.2 W/mK) and lowest coefficient of thermal expansion (4.47 × 10 -6 /K) at 100℃. And, the sintered pure MgO sample exhibited moderate thermal conductivity (39.7 W/mK) and a high coefficient of thermal expansion (13.05 × 10 -6 /K). With increasing MgO contents in the AlN-MgO composites, however, the thermal conductivity of the AlN-MgO composites decreased, from 33.3 to 14.9 W/mK, while their coefficient of thermal expansion generally increased, from 6.49×10 -6 to 10.73×10 -6 /K with increasing MgO content. The composite with an MgO content of 60 wt% exhibited the best mechanical properties overall. Thus, the composition and microstructure of AlN-MgO composites have a determining effect on their thermal and mechanical properties.
(Received 19 December, 2023; Accepted 4 January, 2024) |
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| AbstractList | AlN-MgO composites with different compositions were prepared by spark plasma sintering, and the effects of their composition on their microstructure, thermal properties, and mechanical properties were systemically investigated. MgO compositions in the AlN-MgO composites were controlled from 20 to 80 wt%. The results indicated that a phase transition did not occur during the sintering process, and different solid solutions were formed within the MgO and AlN lattices. The AlN-MgO composites exhibited finer-grain microstructures than those of the sintered pure AlN and MgO samples. Transmission electron microscopy analysis showed that both oxygen-rich, low-density grain boundaries and clean boundaries with spinel phases were present in the composites. The sintered pure AlN sample exhibited the highest thermal conductivity (53.2 W/mK) and lowest coefficient of thermal expansion (4.47 × 10 -6 /K) at 100℃. And, the sintered pure MgO sample exhibited moderate thermal conductivity (39.7 W/mK) and a high coefficient of thermal expansion (13.05 × 10 -6 /K). With increasing MgO contents in the AlN-MgO composites, however, the thermal conductivity of the AlN-MgO composites decreased, from 33.3 to 14.9 W/mK, while their coefficient of thermal expansion generally increased, from 6.49×10 -6 to 10.73×10 -6 /K with increasing MgO content. The composite with an MgO content of 60 wt% exhibited the best mechanical properties overall. Thus, the composition and microstructure of AlN-MgO composites have a determining effect on their thermal and mechanical properties.
(Received 19 December, 2023; Accepted 4 January, 2024) AlN-MgO composites with different compositions were prepared by spark plasma sintering, andthe effects of their composition on their microstructure, thermal properties, and mechanical properties weresystemically investigated. MgO compositions in the AlN-MgO composites were controlled from 20 to 80 wt%. The results indicated that a phase transition did not occur during the sintering process, and different solidsolutions were formed within the MgO and AlN lattices. The AlN-MgO composites exhibited finer-grainmicrostructures than those of the sintered pure AlN and MgO samples. Transmission electron microscopyanalysis showed that both oxygen-rich, low-density grain boundaries and clean boundaries with spinel phaseswere present in the composites. The sintered pure AlN sample exhibited the highest thermal conductivity(53.2 W/mK) and lowest coefficient of thermal expansion (4.47 × 10-6 /K) at 100 oC. And, the sintered pureMgO sample exhibited moderate thermal conductivity (39.7 W/mK) and a high coefficient of thermalexpansion (13.05 × 10-6 /K). With increasing MgO contents in the AlN-MgO composites, however, the thermalconductivity of the AlN-MgO composites decreased, from 33.3 to 14.9 W/mK, while their coefficient of thermalexpansion generally increased, from 6.49×10-6 to 10.73×10-6 /K with increasing MgO content. The compositewith an MgO content of 60 wt% exhibited the best mechanical properties overall. Thus, the composition andmicrostructure of AlN-MgO composites have a determining effect on their thermal and mechanical properties. KCI Citation Count: 0 |
| Author | 신승용 Jung-won An Mohan Chen Yunhwi Park Woo-jae Lee 정명진 모한첸 Seung Yong Shin 박윤휘 Se-hun Kwon Myungjin Jung 이우재 남수용 Su Yong Nam Sunrae Kim 안정원 김선래 권세훈 |
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| SubjectTerms | AlN-MgO composites mechanical properties microstructure spark plasma sintering thermal properties 재료공학 |
| Title | 방전 플라즈마 소결법으로 제조된, AlN-MgO 소결체의 미세구조와 열적, 기계적 특성 |
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