Microstructural Wear Mechanism of $Al_2O_3-5$ vol% SiC nanocomposite and $Si_3N_4$Ceramics

  • 발행 : 2001.09.01

초록

Through the observation of wear scar of two ceramic materials, microstructural wear mechanisms was investigated. As for the $Al_2O_3$-5 vol% SiC nanocomposite, the grain boundary fracture was suppressed by the presence of SiC nano-particles. The intragranular SiC particles have inhibited the extension of plastic deformation through the whole grain. Part of plastic deformation was accommodated around SiC particles, which made a cavity at the interface between SiC and matrix alumina. On the other hand, gas-pressure sintered silicon nitride showed extensive grain boundary fracture due to the thermal fatigue. The lamination of wear scar was initiated by the dissolution of grain boundary phase. These two extreme cases showed the importance of microstructures in wear behavior.

키워드

참고문헌

  1. Wear v.181-183 A.Skopp;M.Woyde;K.H.Habig
  2. Acta Metall v.40 S.J.Cho;H.Moon;H.J.Hockey;S.M.Hsu
  3. J. Am. Ceram. Soc. v.72 S.J.Cho;B.J.Hockey;B.R.Lawn;J.Bennison
  4. Wear v.225-229 C.A.P.Dogan;J.A.Hawk
  5. Wear v.181-183 C.A.P.Dogan;J.A.Hawk
  6. J. Am. Ceram. Soc. v.80 F.Xion;R.R.Manory;L.Ward;M.Terheci;S.Lathabai
  7. J. Am. Ceram. Soc. v.79 M.Oden;T.Ericson
  8. J. Am. Ceram. Soc. v.74 C.A.P.Dogan;A.H.Heuer;M.J.Readey;K.Mieeian
  9. J. Am. Ceram. Soc. v.65 J.E.Blendell;R.L.Coble
  10. J. Eur. Ceram. Soc. v.16 R.W.Davidge;P.C.Twigg;F.L.Rieley
  11. J. Am. Ceram. Soc. v.82 J.Rodriguez,A.Martin;J.Y.Pastor;J.Llorca;J.F.Bartomome;J.S.Moya
  12. J. Am. Ceram. Soc. v.77 A.Zutshi;R.A.Haber;D.E.Niesz;J.W.Adams;J.B.Wachtman;M.K.Ferber;S.M.Hsu
  13. Wear v.105 T.E.Fisher;H.Tomizawa
  14. Trobi. Int. v.23 A.Skopp;M.Woydt;K.H.Habig