Method for producing machine component

The invention claimed is: 1. A method for producing a machine component, comprising the steps of: preparing a material formed of a steel material containing 0.13-0.30% C and 0.90-2.00% Cr in mass % and further containing at least one of Si, Mn, Ni, Mo, Nb, V, Ti, B, Al, and N, with the balance consisting of Fe and unavoidable impurities; carburizing the material at a heating temperature of 850-1050° C. to attain a carbon concentration of 0.8-1.5% in a surface layer of the material; cooling the material at an average rate of 5° C./sec or lower in a temperature range from a temperature higher than the A cm point (° C.) at the surface layer to a cooling end temperature that is at least 50° C. lower than the A 1 point (° C.), to cause the surface layer to have a pearlite structure or a bainite structure; performing spheroidizing annealing at a heating temperature not higher than the A cm point (° C.) at the surface layer of the material, to spheroidize carbides in the pearlite structure or the bainite structure; and after heating the material to a temperature not higher than the A cm point (° C.) at the surface layer of the material, performing quenching and then tempering. 2. A method for producing a machine component using a steel material having a component composition containing 0.13-0.30% C and 0.90-2.00% Cr in mass % and further containing at least one of Si, Mn, Ni, Mo, Nb, V, Ti, B, Al, and N, with the balance consisting of Fe and unavoidable impurities, the machine component being carburized to attain a carbon concentration in a surface of 0.8-1.5%, a surface layer that includes an outermost surface having a structure made up of a martensitic structure with spheroidized carbides dispersed therein and a residual austenitic structure, the spheroidized carbides with an aspect ratio of 1.5 or less constituting 90% or more of all carbides, as to carbides on prior austenite grain boundaries, the proportion of the number of the spheroidized carbides on the prior austenite grain boundaries to a total number of the carbides being 40% or less, the method comprising the steps of: preparing a material formed of the steel material having the component composition; carburizing the material at a heating temperature of 850-1050° C. to attain the carbon concentration of 0.8-1.5% in the surface of the material, to form the surface layer on the surface of the material; cooling the material at an average rate of 5° C./sec or lower in a temperature range from a temperature higher than the A cm point (° C.) at the surface layer to a cooling end temperature that is at least 50° C. lower than the A 1 point (° C.), to cause the surface layer to have a pearlite structure or a bainite structure; performing spheroidizing annealing at a heating temperature not higher than the A cm point (° C.) at the surface layer of the material, to spheroidize carbides in the pearlite structure or the bainite structure; and after heating the material to a temperature not higher than the A cm point (° C.) at the surface layer of the material, performing quenching to form the martensitic structure, and then performing tempering. 3. The machine component producing method according to claim 2 , wherein 90% or more of the spheroidized carbides on the prior austenite grain boundaries have a particle size of 1 μm or less. 4. The machine component producing method according to claim 3 , wherein the prior austenite grain boundaries provide a grain size of 15 μm or less.