The invention discloses a high-wear-resistance automobile shaft component powder metallurgy material. The high-wear-resistance automobile shaft component powder metallurgy material comprises the following raw materials: iron powder, chromium powder, molybdenum powder, copper powder, nickel powder, lead oxide powder, yttrium powder, titanium carbide powder, tantalum carbide powder, tin powder, zinc oxide powder, alumina powder, graphene powder, tetramethylolmethane, stearic acid, polyvinyl chloride fiber, basalt fibers, ethylene glycol monoethyl ether acetate, hypromellose, ethylene bisstearamide, chlorinated paraffin, glycidoxypropyl trimethoxysilane, silicon carbide, manganous sulphide, alcohol acid resin, an inhibitor, a binding agent, a reinforcing agent, a cutting agent, a lubricant, a cross-linking agent, a dispersant and a regulator. By the specific ingredient proportion, the high-wear-resistance automobile shaft component powder metallurgy material is uniform in integral density, high in compactness, high in extend rate and percentage reduction of area, good in wear resistance, strength and hardness and high in material utilization rate, and is suitable for quickly producing the high-performance automobile shaft component powder metallurgy material on a large scale.