Based on TZM molybdenum alloy, powder metallurgy methods were using to prepare La-TZM alloy plates with solid-liquid doped rare earth lanthanum and substitution of organic carbon stearic for traditional graphite by mixing, pressing and sintering, hot-rolling, warm-rolling, and cold rolling. La-TZM alloy plates were heated at 300, 450, 600, 800 and 1000 oC in the furnace to calculate the mass loss of the samples. The oxidation behavior was analyzed by the differential thermal analysis. The results show that the tensile strength and elongation of La-TZM plate are 1361.74 MPa and 8.81%, respectively, higher than those of traditional TZM plate. The fiber of La-TZM alloy plate is slim and homogeneous. The second phase of La-TZM alloy plate is smaller and disperses homogeneously. The La-TZM alloy has a more compact structure due to the lanthanum doping. The minute lanthanum oxide particles are pinned at the grain boundaries and refine the grains. Oxide layer generated on the matrix surface can form a compact coating, which effectively blocks the surface from being corroded by oxidation. The oxidation resistance of La-TZM alloys is enhanced, expanding its application range