Some ternary carbide and nitride ceramics have been demonstrated to exhibit abnormal thermal shock behavior in mechanical properties. However, the influence of thermal shock on other properties is not clear. This work reports on the influence of thermal shock on electrical conductivity of Ti_2SnC as a representative member of ternary carbides. Abnormal change in electrical conductivity was first demonstrated during quenching Ti_2 SnC in water at 500-800 ℃. The residual electrical conductivity of the quenched Ti_2SnC gradually decreased with increasing temperature, but abnormally increased after quenching at 600 ℃. The microstructure of surface cracks was characterized. The main mechanism for the abnormal electrical conductivity recovery is that some narrow branching cracks are filled by metallic Sn precipitating from Ti_2SnC. However, the influence of thermal shock on other properties is not clear. This work reports on the influence of thermal shock on electrical conductivity of Ti_2SnC as a representative. Abnormal change in electrical conductivity was first examined during quenching Ti_2SnC in water at 500-800 ℃. The residual electrical conductivity of the quenched Ti_2SnC gradually decreased with increasing temperature, but abnormally increased after quenching at 600 ℃. of surface cracks was characterized. The main mechanism for the abnormal electrical conductivity recovery is that some narrow branching cracks are filled by metallic Sn precipitating from Ti_2SnC.