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Thermoelectric materials Mg2Si0.8Sn0.2 were sintered under three different conditions including no electricity sintering(NCS), low electricity sintering(LCS),and high electricity sintering(HCS). Thermoelectric performance and microstructure of three group samples were measured and compared. The results indicate that the application of electric current during the sintering process changes the microstructure and significantly increases the density of samples, and increases the electric conductivity and the power factor. The electric current activated/assisted sintering is an effective way to obtain thermoelectric materials with excellent performance.
Thermoelectric materials Mg2Si0.8Sn0.2 were sintered under three different conditions including no electricity sintering (NCS), low electricity sintering (LCS), and high electricity sintering (HCS). Thermoelectric performance and microstructure of three group samples were measured and compared. results indicate that the application of electric current during the sintering process changes the microstructure and significantly increases the density of samples, and increases the electric conductivity and the power factor. The electric current activated / assisted sintering is an effective way to obtain thermoelectric materials with excellent performance.