Synthesis and sintering of MAX phases in the Zr–Al–C system

In this paper synthesis and sintering of MAX phases in the Zr–Al–C system is described. Different mixtures of initial Zr/Al/C and Zr/Al/ZrC powders were used to synthesize the MAX phases of Zr₂AlC and Zr₃AlC₂ compositions by a combined method (high‐temperature sintering followed by spark plasma sintering). The highest content of the Zr₃AlC₂ MAX‐phase was obtained using initial Zr/Al/ZrC powders in a component ratio of 1:1.5:2 – 51.1 vol. %. The optimal temperature for the synthesis of a material based on the Zr₂AlC MAX phase is 1525°C, and a material based on Zr₃AlC₂ is 1575°C. During subsequent spark plasma sintering at a temperature of 1500°C, a pressure of 50 MPa, within 5 min, it was obtained a material containing up to 71.1 vol. % Zr₃AlC₂. The relative density of the samples synthesized and consolidated by the SPS method reaches 98.9 %. The structure of the obtained synthesized MAX materials includes elongated grains of the composition Zr₂AlC and Zr₃AlC₂, which determines their high strength. The influence of the sintering time and temperature on the formation of the MAX phase of Zr₃AlC₂ from the initial powders of Zr/Al/ZrC is shown. Zirconium carbide, as an intermediate phase, is always present in the final products. Due to the large evaporation of aluminum, the ZrAl₂ phase is also present in the synthesis products. An excess of aluminum contributes to the greatest formation of the Zr₂AlC and Zr₃AlC₂ phases during the combined synthesis.

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