Surface-coated cutting tool with excellent adhesion-induced chipping resistance and peel resistance

The invention claimed is: 1. A surface-coated cutting tool comprising a hard coating layer on a surface of a cutting tool substrate made of WC-based cemented carbide or TiCN-based cermet, the hard coating layer comprises: (a) a Ti compound layer containing at least nitrogen and carbon is formed on the surface of the cutting tool substrate, (b) in a vicinity of a cutting edge of the cutting tool substrate, in a case where a nitrogen concentration in the Ti compound layer is measured in a direction perpendicular to the surface of the cutting tool substrate, within a range of 0.20 μm from the surface of the cutting tool substrate toward the Ti compound layer, the nitrogen concentration in the Ti compound layer gradually increases as a distance from the cutting tool substrate increases, and an average concentration gradient of the nitrogen concentration is 20 at %/μm or more and 300 at %/μm or less, and (c) an average nitrogen concentration in the Ti compound layer formed on a top of the surface of the cutting tool substrate in the vicinity of the cutting edge is lower than an average nitrogen concentration in the Ti compound layer formed on the top of the surface of the cutting tool substrate at a position of a flank face away from the cutting edge by 3 at % or more. 2. The surface-coated cutting tool according to claim 1 , wherein, in the Ti compound layer formed on the top of the surface of the cutting tool substrate at the position of the flank face away from the cutting edge, in a case where a nitrogen concentration and a carbon concentration are measured along a direction parallel to the surface of the cutting tool substrate, a low nitrogen region having a high carbon concentration and a low nitrogen concentration (including zero nitrogen concentration) and a high nitrogen region having a high nitrogen concentration and a low carbon concentration (including zero carbon concentration) are present. 3. The surface-coated cutting tool according to claim 1 , further comprising one or more Ti compound layers formed on the surface of the Ti compound layer containing at least nitrogen and carbon and formed on the top of the surface of the cutting tool substrate. 4. The surface-coated cutting tool according to claim 3 , further comprising an Al 2 O 3 layer having an α-form or κ-form crystal structure formed on a surface of the one or more Ti compound layers. 5. The surface-coated cutting tool according to claim 2 , further comprising one or more Ti compound layers formed on the surface of the Ti compound layer containing at least nitrogen and carbon and formed on the top of the surface of the cutting tool substrate. 6. The surface-coated cutting tool according to claim 5 , further comprising an Al 2 O 3 layer having an α-form or κ-form crystal structure formed on a surface of the one or more Ti compound layers. 7. The surface-coated cutting tool according to claim 1 , wherein the position of the flank face away from the cutting edge is a position 0.4 mm to 0.6 mm away from a honing portion toward the flank face side.