Cutting tool made of cubic boron nitride-based sintered material

The invention claimed is: 1. A cutting tool made of cubic boron nitride-based sintered material, comprising: cubic boron nitride particles as a hard phase component, wherein an average size of the cubic boron nitride particles is in a range of 0.5 to 8 μm, a portion of each of the cubic boron nitride particles is coated with aluminum oxide film having an average thickness of 10 to 90 nm on surfaces thereof, and a rift is partially formed in the aluminum oxide film. 2. The cutting tool made of cubic boron nitride-based sintered material according to claim 1 , wherein in a case of: observing an image of a cross section of the cubic boron nitride particles coated by the aluminum oxide film; and obtaining an average rift formation ratio to the aluminum oxide film formed along the surfaces of the coated cubic boron nitride particles, a formula 0.02≦h/H≦0.08 is satisfied, where h is a breadth of the rift of the aluminum oxide film and H is a girth of the particle of cubic boron nitride. 3. The cutting tool made of cubic boron-nitride based sintered material according to claim 1 , wherein in a case of obtaining a ratio of a number of the cubic boron nitride particles coated by the aluminum oxide film, which have the average thickness of 10 to 90 nm on surfaces thereof and the rift is partially formed in, a formula (Q−q)/Q≧0.85 is satisfied, where q is a number of cubic boron nitride particles free of the aluminum oxide film, and Q is a number of cubic boron nitride particles included in the sintered material. 4. The cutting tool made of cubic boron-nitride based sintered material according to claim 2 , wherein in a case of obtaining a ratio of a number of the cubic boron nitride particles coated by the aluminum oxide film, which have the average thickness of 10 to 90 nm on surfaces thereof and the rift is partially formed in, a formula (Q−q)/Q≧0.85 is satisfied, where q is a number of cubic boron nitride particles free of the aluminum oxide film, and Q is a number of cubic boron nitride particles included in the sintered material.