Patent ID: 7597511
Filing Date: 2009-10-06
Classification: C23C,Y10T

Abstract:
1. A surface-coated cutting tool that is formed by coating a surface of a tool substrate made of tungsten-carbide-based cemented carbide or titanium-carbonitride-based cermet with a hard-coating layer including the following upper and lower layers (a) and (b) by vapor deposition: (a) as the lower layer, a titanium compound layer having one or more of a titanium carbide layer, a titanium nitride layer, a titanium carbonitride layer, a titanium carboxide layer and a titanium oxycarbonitride layer with a total average layer thickness of 3 to 20 μm, and (b) as the upper layer, an aluminum oxide layer having an α-type crystal structure and containing Zr with an average layer thickness of 2 to 15 μm, wherein when the tipper layer is observed with a field emission scanning electron microscope, the upper layer has a structure including crystal grains having an even polygonal shape in a plane perpendicular to the thickness direction and an elongate shape in the thickness direction in a plane parallel to the thickness direction, and wherein when electron beams are radiated to the individual crystal grains existing within a measurable range of a polished surface by the use of a field emission scanning electron microscope and an electron backscatter diffraction imaging device to measure angles formed by normal lines of crystal lattice faces with hexagonal crystal lattices and the normal line of the polished surface, a crystallographic orientation relationship between the adjacent crystal lattices is calculated from the measurement result, a distribution of lattice points (constituent atom covalent lattice points) in which constituent atoms of a crystal lattice interface share one constituent atom between the crystal lattices is calculated, and a constituent atom covalent lattice point type in which N lattice points not sharing the constituent atom exist between the constituent atom covalent lattice points (where N is an even number of 2 or more in view of a crystal structure of corundum type hexagonal close packed crystal but does not include even numbers of 4, 8, 14, 24, and 26 when the upper limit of N is set to 28 in view of distribution frequency) is expressed as ΣN+1, the above mentioned crystal grains of which insides are divided by at least one crystal lattice interface with the constituent atom covalent lattice point type expressed by Σ3 occupying 60% or more as an area ratio in the crystal grains of the upper layer.