Carburized component and method for manufacturing same

The invention claimed is: 1. A carburized part which is formed by processing a steel into a shape of a part and performing a carburizing treatment on the steel, the steel having a composition consisting essentially of, in terms of % by mass: 0.10% to 0.40% of C; 0.05% to 2.00% of Si; 0.30% to 2.00% of Mn; 0.30% to 3.00% of Cr; 0.025% or less of N; 0 to 0.80% of Mo, and as a pinning particle forming element which forms a pinning particle by nitrification, one or two or more elements selected from: 0.020% to 0.100% of Al; 0.01% to 0.20% of Nb; and 0.005% to 0.20% of Ti, with the remainder being Fe and inevitable impurities, wherein a crystal grain size number of a surface layer of the part at a depth of 50 μm or less from a surface is greater than 5, and the crystal grain size number of an inner portion of the part at a depth of 3 mm or more from the surface is 5 or less, wherein an N concentration in the surface layer of the part is higher than the N concentration in the inner portion of the part, and wherein nitrides of one or two or more elements selected from Al, Nb, or Ti are precipitated in the surface layer of the part at a depth of 50 μm or less from the surface. 2. A method for manufacturing the carburized part according to claim 1 , the method comprising: processing a steel into a shape of a part, the steel having a composition consisting essentially of, in terms of % by mass: 0.10% to 0.40% of C; 0.05% to 2.00% of Si; 0.30% to 2.00% of Mn; 0.30% to 3.00% of Cr; 0.025% or less of N; 0 to 0.80% of Mo, and as a pinning particle forming element which forms a pinning particle by nitrification, one or two or more elements selected from: 0.020% to 0.100% of Al; 0.01% to 0.20% of Nb; and 0.005% to 0.20% of Ti, with the remainder being Fe and inevitable impurities; then heating the steel in a treatment furnace at a temperature of A 3 point or higher and holding the steel to perform a vacuum carburizing treatment on the steel with a carburizing gas under reduced pressure; controlling a nitriding atmosphere by introducing a nitriding gas into the treatment furnace during the vacuum carburizing treatment, such that a total amount V of nitride particles containing one or two or more of AlN which is a nitride of Al, NbN which is a nitride of Nb, and TiN which is a nitride of Ti in a surface layer at a depth of 50 μm or less from a surface of the part is maintained at a value represented by the following Equation (1) or more during the carburizing treatment; and determining the content of N in the steel such that the total amount V of the nitride particles in an inner portion of the part at a depth of 3 mm or more from the surface is less than the value represented by the following Equation (1) during the carburizing treatment, thereby obtaining a carburized part in which a crystal grain size number of the surface layer of the part is greater than 5 and the crystal grain size number of the inner portion of the part is 5 or less, (3.33×10 −5 ×C+ 7.33×10 −5 )× T −(3.58×10 −2 ×C+ 7.37×10 −2 )  Equation (1) in the Equation (1), C represents a C concentration, and T represents a temperature, provided that the unit of V is % by mass, the unit of C is % by mass, and the unit of T is K.