Fabrication of B4C/TiB2 Composite Ceramics Using Pulsed Electric Current Pressure Sintering

HIROTA Ken, TANIGUCHI Tomoki, GOTO Naoki, KATO Masaki, TAGUCHI Hideki

doi:10.2497/jjspm.64.538

Dense B₄C/TiB₂ composite ceramics have been fabricated from the amorphous B and C, and fine TiC powders (25 nm in size P_s), using pulsed electric current pressure sintering (PECPS) at 2173 K under 50 MPa for 6.0 × 10² s in a vacuum. During PECPS the solid-state reaction between B and C was induced around 1373 K and almost at the same time TiB₂ phase was gradually formed, followed by a continuous formation of B₄C matrix including TiB₂ particles. On the other hand as the reference, two kinds of B₄C/TiB₂ composites from the B/C mixtures and TiB₂ powders (1.86 μm and 58 nm in P_s) were also fabricated as the same manner. The former composites using TiC showed high relative density ≥ 98.9% up to 11 vol% TiB₂ and improved mechanical properties, such as three-point bending strength σ_b of 650 MPa, Vickers hardness H_v of 33.5 GPa and fracture toughness K_IC around 5.45 MPa·m^1/2 at the composition of B₄C/TiB₂ = 93/7 vol%, however, the latter composites revealed lower relative densities of 96.5% at 7 vol%TiB₂ composition and deteriorated mechanical behaviors as P_s of TiB₂ increased.

Fabrication of B<sub>4</sub>C/TiB<sub>2</sub> Composite Ceramics Using Pulsed Electric Current Pressure Sintering

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