Fabrication of Textured Ti<sub>3</sub>SiC<sub>2</sub> Ceramics by Slip Casting in a Magnetic Field and Pulsed Electric Current Sintering

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  • Sato Kimitoshi
    Advanced Key Technologies Division, Materials Processing Unit, National Institute for Materials Science
  • Hirano Hiroto
    Graduate School of Science & Technology, Hosei University
  • Suzuki Tohru
    Advanced Key Technologies Division, Materials Processing Unit, National Institute for Materials Science
  • Ishigaki Takamasa
    Graduate School of Science & Technology, Hosei University
  • Sakka Yoshio
    Advanced Key Technologies Division, Materials Processing Unit, National Institute for Materials Science

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Other Title
  • 強磁場中スリップキャストとパルス通電焼結による Ti<sub>3</sub>SiC<sub>2</sub> 配向体の作製
  • 強磁場中スリップキャストとパルス通電焼結によるTi₃SiC₂配向体の作製
  • キョウジジョウ チュウ スリップキャスト ト パルス ツウデン ショウケツ ニ ヨル Ti ₃ SiC ₂ ハイコウタイ ノ サクセイ
  • Fabrication of Textured Ti3SiC2 Ceramics by Slip Casting in a Magnetic Field and Pulsed Electric Current Sintering

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Abstract

Plate-like Ti3SiC2 particles were prepared. Highly textured and dense Ti3SiC2 ceramics was successfully fabricated by slip casting plate-like particles in a strong magnetic field followed by pulsed electric current sintering at 1450℃under 80 MPa for 5min. 3 point bending strength and K1C of the textured Ti3SiC2 ceramics were 812 MPa, 7.3 MPa・m1/2, respectively. Compared to the Ti3SiC2 ceramics prepared by slip casting without magnetic field, the 3 point bending strength and K1C of the textured Ti3SiC2 ceramics have been increased by factors of 1.05 and 1.22, respectively.

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