Patent ID: 8999511
Filing Date: 2015-04-07
Classification: B22F,B32B,C04B,Y10T

Abstract:
1. A cubic boron nitride sintered body tool in which a cubic boron nitride sintered body is joined to a tool base material via a joining layer, wherein said cubic boron nitride sintered body contains cubic boron nitride particles by not less than 30 volume % and not more than 95 volume % and a binder phase by not less than 5 volume % and not more than 70 volume %, said binder phase is composed of at least one first compound and at least one Al compound, or is composed of at least one second compound, said first compound is a compound composed of at least one element belonging to one of a group IVa element, a group Va element, and a group VIa element in a periodic table, and at least one element selected from a group consisting of nitrogen, carbon, boron, and oxygen, or is a solid solution of said compound, said second compound is a compound selected from a group consisting of a Co compound, an Al compound, and a W compound, or is a solid solution of said compound, said joining layer contains Ti by 5 mass % or greater and Zr by 5 mass % or greater relative to a whole of said joining layer with a remainder thereof containing Cu while a total of said Ti and said Zr is 90 mass % or smaller, or said joining layer contains Ti by 1 mass % or greater and Cu by 15 mass % or greater with a remainder thereof containing Ag, and assuming that, in at least one cross sectional surface of said cubic boron nitride sintered body tool taken along a plane perpendicular to a joining surface having a largest area in joining surfaces between said cubic boron nitride sintered body and said joining layer, any adjacent two of said cubic boron nitride particles along the joining surface between said cubic boron nitride sintered body and said joining layer are a first cubic boron nitride particle and a second cubic boron nitride particle, assuming that a point A represents an intersection close to said second cubic boron nitride particle among intersections at which said first cubic boron nitride particle, said joining layer, and said binder phase are in contact with one another, and a point B represents an intersection close to said point A among intersections at which said second cubic boron nitride particle, said joining layer, and said binder phase are in contact with one another, assuming that a point C represents a point away from said point A, along a boundary line on which said first cubic boron nitride particle and said joining layer are in contact with each other, by ¼ of a length of a line segment connecting said point A and said point B to each other, and assuming that a point D represents a point away from said point B, along a boundary line on which said second cubic boron nitride particle and said joining layer are in contact with each other, by ¼ of the length of the line segment connecting said point A and said point B to each other, a value obtained when an area of a region surrounded by a line segment connecting said point C and said point D to each other, said first cubic boron nitride particle, said second cubic boron nitride particle, and said binder phase is divided by the length of the line segment connecting said point A and said point B to each other is not less than 0.14 μm and not more than 0.6 μm.