Journal of the Korean Ceramic Society (한국세라믹학회지)

The Korean Ceramic Society (한국세라믹학회)
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Preparation of AlN/SiC Whisker Composite by Reaction Sintering Process

반응소결법에 의한 AlN/SiC 휘스커 복합체의 제조

  • 박정현 (연세대학교 세라믹공학과) ;
  • 김용남 (연세대학교 세라믹공학과) ;
  • 유재영 (연세대학교 세라믹공학과) ;
  • 강민수 (연세대학교 세라믹공학과)
  • Published : 1999.02.01
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Abstract

Al powder, AlN powder, SiC whisker and sintering aids were wet-mixed, and then the specimens prepared with mixed powder were reacted by nitridation at 600∼1400$^{\circ}C$ for 5 hrs. It was cleat that the higher nitridation and the more SiC whisker content were, the better bending strength was. The specimen of Al50/AlN50 reacted at 1400$^{\circ}C$ for 5hrs had the nitridation percent of 97%, the shrinkage under 2%, and the relative density of 78%. And the maximum bending strength of reaction-bonded specimen was 250 MPa. The specimens completely nitrided were post-sintered at 1700, 1800 and 1900$^{\circ}C$ for 2hrs. The post-sintered body had the shrinkage under 6% and the relative density of 86%. Because of the formation of solid solution between AlN and SiC whisker over 1800$^{\circ}C$, the promotion of mechanical properties according to SiC whisker addition was not observed. The post-sintered body had the maximum bending strength of 195 MPa.

Al 분말과 AlN 분말에 SiC 휘스커와 소결조제를 첨가하여 습식혼합한 후 성형체를 제조하고 600~140$0^{\circ}C$의 온도에서 5시간 동안 질화반응을 진행시켰다. 반응소결체의 꺾임강도를 측정한 결과 질화율이 높아질수록, 그리고 SiC 휘스커의 첨가량이 많아질수록 증진되는 것을 확인할 수 있었다. Al과 AlN이 50:50으로 혼합된 시편을 140$0^{\circ}C$에서 5시간 동안 질화반응을 시킨 결과 97% 이상의 질화율과 2%미만의 수축율을 나타내었고, 상대밀도값은 78%이었다. 그리고 반응소결체의 최대 꺾임강도는 250 MPa이었다. 완전히 질화반응을 시켜 미반응 Al이 잔존하지 않는 시편들을 1$700^{\circ}C$, 180$0^{\circ}C$, 190$0^{\circ}C$의 온도에서 2시간 동안 재소결한 결과 수축은 6% 미만이었으며, 최고 86%의 상대밀도를 나타내었다. 180$0^{\circ}C$이상의 온도에서 2시간 동안 재소결한 결과 수축은 6%미만이었으며, 최고 86%의 상대밀도를 나타내었다. 180$0^{\circ}C$이상의 온도에서 재소결한 시편들의 경우 AlN과 SiC 휘스커가 고용체를 형성하여 SiC 휘스커 첨가에 의한 기계적 물성의 증진 효과는 거의 나타나지 않았다. 그리고 재소결한 시편의 최대 꺾임강도는 295 MPa이었다.

Keywords

References

  1. J. Eur. Ceram. Soc. v.9 Preparation and Characterization of Tape Cast Aluminum Nitride Substrates T. Chartier;E. Streicher
  2. IEEE Trans. Compon. Hydrids, Manuf. Technol. v.8 no.2 AIN Substrates with High Thermal Conductivity Y. Kurokawa;K. Utsumi;H. Takamizawa;T. Kamata;S. Noguchi
  3. J. Mater. Sci. v.31 Analysis of Local Heat Transfer Properties of Tape-Cast AIN Ceramics Using Photothermal Reflectance Microscopy L. Fabbri;D. Fournier;L. Pottier
  4. IEEE Trans. Compon. Hybrids, Manuf. Technol. v.7 no.4 Aluminum Nitride-An Alternative Ceramic Substrate for High Power Applications in Microcircuits W. Werdecker;F. Aldinger
  5. J. Am Ceram. Soc. v.72 no.11 Thermodynamic and Kinetic Effects of Oxygen Removal on the Thermal Conductivity of Aluminum Nitride A. Virkar
  6. Key Engineering Materials v.122;123;124 Aluminum Nitride;Processing and Applications Y. Baik;R. A. L. Drew
  7. 17th Annual Conference on Composites and Advanced Ceramics Materials Part 2 of 2 v.14 Fabrication of AIN-SiC Whisker Composites T. J. Mroz;E. A. Groat;P. T. Fini
  8. 한국요업학회지 v.33 no.1 AIN/W계 복합재료의 기계적 특성과 미세구조 윤영훈;최성철;박철원
  9. 한국요업학회지 v.22 no.6 금속알루미늄으로부터 질화알루미늄의 합성 최상욱;이승제
  10. J. Mater. Sci. v.28 Sintering and Characterization of Fully Dense Aluminum Nitride Ceramics M. Hirano;K. Kato;T. Isobe;T. Hirano
  11. Ceram. Bull. v.68 no.4 Development of Translucent Aluminum Nitride Ceramics N. Kuramoto;H. Taniguchi;I. Aso
  12. J. Am. Ceram. Soc. v.72 no.8 Liquid-Phase Sintering of Aluminum Nitride by Europium Oxide Additives N. VanDamme;S. Richard;S. Winzer
  13. J. Mater. Sci. v.31 Effect of Al₂O₃ Addition on Phase Reaction of the AIN-Y₂O₃ System N. H. Kim;K. Komeya;T. Meguro
  14. J. Am. Ceram. Soc. v.72 Effect of Additives on the Pressureless Sintering of Aluminum Nitride between 1500℃ and 1800℃ T. B. Troczynski;P. S. Nicholson
  15. J. Am. Ceram. Soc. v.77 no.10 Effect of Processing Parameters on Phase and Microstructure Evolution in RBAO Ceramics D. Holz;S. Wu;S. Scheppokat;N. Claussen
  16. Ceram. Eng. Sci. Proc. v.11 no.7;8 Low-Shrinkage Reaction-bonded $Al_2O_3$ (RBAO) Ceramics N. Claussen;N. Travitzky;S. Wu
  17. J. Am. Ceram. Soc. v.77 Microstructural and Fracture Toughness of Hot-Pressed Silicon Carbide Reinforced with Silicon Carbide Whisker Dong-Han Lee;Hyoun-He Kim
  18. J. Am. Ceram. Soc. v.75 Homogeneous Fabrication of $Al_2O_3-ZrO_2-SiC$ Whisker Composite by Surface-Induced Coating Hyun M. Jang;Jong H. Moon;Cheol W. Jang
  19. J. Am. Ceram. Soc. v.75 Elastic Properties of $Al_2O_3\; and\;Si_3N_4$ Matrix Composites with SiC Whisker Reinforcement E. S. Fisher;M. H. Manghnani;J. F. Wang
  20. J. Am. Ceram. Soc. v.76 Tensile Creep and Creep Rupture Behavior of Monolithic and SiC-Whisker-Reinforced Silicon Nitride Ceramics T. Ohji;Y. Yamauchi
  21. J. Am. Ceram. Soc. v.75 Microstructure of an Extruded β-Silicon Nitride Whisker-Reinforced Silicon Nitride Composite D. Muscat;M. D. Pugh;R. A. L. Drew
  22. Powder & Powder Metallygy(Jpn) v.17 no.3 The Effects of Particles Size of AIN and Composition on Sintering with Nitriding Reaction of the System AIN-Al K. Komeya;H. Inoue
  23. Key Engineering Materials v.132-136 A Mechanism for Aluminium Powder Nitridation A. Zymla;V. Zymla;J. B Guillot
  24. J. Am. Ceram. Soc. v.78 no.1 Kinetics and Mcchanisms for Nitridation of Floating Aluminum Powder An-Jae Chang;Shi-Woo Rhee;Sunggi Baik
  25. J. Mater. Sci. v.30 Nitridation Characteristics of Floating Aluminum Powder An-Jae Chang;Shi-Woo Rhee;Sunggi Baik
  26. Key Engineering Materials v.127-131 A New Metal Matrix Composite;Al-AIN from Partially Nitrided Aluminum Powders G. Boitier;J. L. Chermant;P. Goeuriot
  27. J. Mater. Sci. Lett. v.12 Formation of $Al_2O_3$ Fibre-Reinforced AIN/Al-Matrix Composites by Al(Mg)-Melt Nitridation H. Scholz;R. Gunther;J. Rodel;P. Greil
  28. J. Am. Ceram. Soc. v.77 Rapid Process for Manufacturing Aluminum Nitride Powder A. W. Weimer;G. A. Cochran
  29. J. Mater. Sci. v.16 no.12 Fabrication and Characterization of SiC-AIN Alloys W. Rafaniello;K. Cho;A. Virkar
  30. J. Am. Ceram. Soc. v.71 Phase Relationships in the Silicon Carbide-Aluminum Nitride System A. Zangvil;R. Ruh