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Microstructures, Electrical, Thermal, and Mechanical Properties of Bulk <scp> <scp>Ti</scp> <sub>2</sub> <scp>AlC</scp> </scp> Synthesized by Self‐Propagating High‐Temperature Combustion Synthesis with Pseudo Hot Isostatic Pressing

Yuelei BaiCenter for Composites Materials and Structures Harbin Institute of Technology Harbin 150080 ChinaXiaodong HeCenter for Composites Materials and Structures Harbin Institute of Technology Harbin 150080 ChinaChuncheng ZhuDepartment of Chemistry Harbin Normal University Harbin 150000 ChinaGuiqing ChenCenter for Composites Materials and Structures Harbin Institute of Technology Harbin 150080 China
2011en
ABI

Аннотация

The microstructure and the electrical, thermal, and mechanical properties of bulk Ti 2 AlC synthesized by self‐propagating high‐temperature combustion synthesis with pseudo hot isostatic pressing ( SHS / PHIP ) were investigated in detail. The plate‐like Ti 2 AlC grains distribute irregularly, with the grain size of around 6 μm in length and 1 μm in width. With increasing temperature, the electrical resistivity increases linearly from room temperature ( RT ) to 900°C, but the thermal conductivity decreases slightly. The RT electrical resistivity and thermal conductivity are 0.40 ± 0.03 μΩ·m and 27.0 W·(m·K) −1 , respectively. The electronic component of the thermal conductivity is the dominant mechanism at all temperatures, and the phonon contribution almost can be neglected above 873 K. With increasing temperature, the flexural strength increases first, then decreases above 550°C, at which it reaches the maximum value of 539 ± 36 MPa. The brittle‐to‐plastic transition temperature falls in the temperature range of 750°C–950°C. The Ti 2 AlC synthesized by SHS / PHIP process exhibits an anisotropic compressive strength. The work of fracture of Ti 2 AlC is estimated to be 200 ± 7 J/m 2 , which is much higher than that of traditional ceramics.

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