초록 ▼

A coated cBN sintered body tool has improved wear resistance and fracture resistance. The coated cBN sintered body tool has a substrate of a cBN sintered body and a coating layer coated on the surface thereof. The cBN sintered body includes 73 to 84% by volume of cBN and 16 to 27% by volume of a bin

A coated cBN sintered body tool has improved wear resistance and fracture resistance. The coated cBN sintered body tool has a substrate of a cBN sintered body and a coating layer coated on the surface thereof. The cBN sintered body includes 73 to 84% by volume of cBN and 16 to 27% by volume of a binder phase and inevitable impurities. An average grain size of the cBN is 1.5 to 4.0 μm; an average value of the thickness of the binder phase is 0.05 to 0.5 μm; and a standard deviation of the thickness of the binder phase is 0.5 μm or less. The coating layer includes an upper layer of Ti(CxN(1−x)), an intermediate layer including a metal, a lower layer including an alternately laminated layer of (Ti(1−y)Siy)N thin layers and (Al(1−z)Crz)N thin layers, and an undermost layer of (Al(1−a)Cra)N.

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1. A coated cBN sintered body tool comprising a substrate of a cBN sintered body and a coating layer coated on a surface thereof, wherein the cBN sintered body comprises: 73 to 84% by volume of cBN; and16 to 27% by volume of a binder phase which comprises at least one selected from the group consist

1. A coated cBN sintered body tool comprising a substrate of a cBN sintered body and a coating layer coated on a surface thereof, wherein the cBN sintered body comprises: 73 to 84% by volume of cBN; and16 to 27% by volume of a binder phase which comprises at least one selected from the group consisting of a metal of Ti, W, Co and Al, a carbide, carbonitride, a nitride, a boronitride, a boride and an oxide of these metals and a mutual solid solution thereof, and inevitable impurities;an average grain size of the cBN is 1.5 to 4.0 μm, an average value of the thickness of the binder phase is 0.05 to 0.5 μm, a standard deviation of a thickness of the binder phase is 0.5 μm or less,the coating layer comprises an upper layer, an intermediate layer, a lower layer and an undermost layer, wherein(1) the upper layer comprises a compound represented by a compositional formula of Ti(CxN(1−x)), wherein x represents an atomic ratio of C based on the total amount of C and N, and satisfies 0≦x≦0.7,and has an average layer thickness of 0.3 to 2.0 μm,(2) the intermediate layer comprises at least one metal selected from the components of Ti, Al, Cr and Si, and has an average layer thickness of 10 to 100 nm,(3) the lower layer comprises an alternately laminated layer comprising a first thin layer which comprises a compound represented by a compositional formula of (Ti(1−y)Siy)N wherein y represents an atomic ratio of Si based on the total amount of Ti and Si, and satisfies 0.01≦y≦0.3,and has an average layer thickness of 30 to 200 nm, anda second thin layer which comprises a compound represented by a compositional formula of (Al(1−z)Crz)N wherein z represents an atomic ratio of Cr based on the total amount of Al and Cr, and satisfies 0.2≦z≦0.5,and has an average layer thickness of 30 to 200 nm,the first and second thin layers being alternately laminated with an average layer thickness of 0.12 to 1.6 μm with respect to the whole alternately laminated layer, and(4) the undermost layer comprises a compound represented by a compositional formula of (Al(1−a)Cra)N wherein a represents an atomic ratio of Cr based on the total amount of Al and Cr, and satisfies 0.2≦a≦0.5,and has an average layer thickness of 20 to 200 nm. 2. The coated cBN sintered body tool according to claim 1, wherein the cBN sintered body comprises 75 to 80% by volume of cBN, and 20 to 25% by volume of the binder phase and inevitable impurities, an average grain size of the cBN is 2.0 to 3.0 μm, an average value of the thickness of the binder phase is 0.1 to 0.4 μm, and the standard deviation of the thickness of the binder phase is 0.05 to 0.4 μm. 3. The coated cBN sintered body tool according to claim 1, wherein thermal conductivity of the cBN sintered body is 70 W/(m·K) or more. 4. The coated cBN sintered body tool according to claim 1, wherein thermal conductivity of the cBN sintered body is 80 to 160 W/(m·K). 5. The coated cBN sintered body tool according to claim 1, wherein an amount of the tungsten element contained in the cBN sintered body is 3% by mass or less based on the whole cBN sintered body. 6. The coated cBN sintered body tool according to claim 1, wherein an amount of the tungsten element contained in the cBN sintered body is 0.2 to 2% by mass based on the whole cBN sintered body. 7. The coated cBN sintered body tool according to claim 1, wherein the binder phase of the cBN sintered body comprises at least one selected from the group consisting of metals of Ti, W, Co and Al, a carbide, a carbonitride, a nitride, a boronitride, a boride or an oxide of these metals, and mutual solid solution thereof. 8. The coated cBN sintered body tool according to claim 1, wherein the binder phase of the cBN sintered body comprises at least one selected from TiN, TiCN, TiC, TiB2, TiBN, TiAlN, Ti2AlN, AlN, AlB2, Al2O3, WC, WB, W2B, CoWB, W2Co21B6, Co3W3C, W, Co and Ti. 9. The coated cBN sintered body tool according to claim 1, wherein the binder phase of the cBN sintered body comprises at least one of TiN, TiCN, TiC, AlN, AlB2, Al2O3, TiB2, CoWB, W2Co21B6 and WC. 10. The coated cBN sintered body tool according to claim 1, wherein the binder phase of the cBN sintered body comprises at least one of TiN, TiCN, TiC, AlN, AlB2, Al2O3 and TiB2. 11. The coated cBN sintered body tool according to claim 1, wherein an average value of the thickness of the binder phase is 0.1 to 0.4 μm. 12. The coated cBN sintered body tool according to claim 1, wherein the intermediate layer comprises a metal represented by a compositional formula of Ti or AlCr and has an average layer thickness of 10 to 100 nm. 13. The coated cBN sintered body tool according to claim 1, wherein the intermediate layer comprises a metal represented by a compositional formula of Ti and has an average layer thickness of 10 to 100 nm. 14. The coated cBN sintered body tool according to claim 1, wherein the upper layer is constituted by a compound represented by a compositional formula of Ti(CxN(1−x)) where x represents an atomic ratio of C based on the total amount of C and N, and satisfies 0≦x≦0.7, and has an average layer thickness of 0.3 to 2.0 μm, comprising an inclined compositional layer in which an atomic ratio of C based on the total amount of C and N is increased from the substrate side to the surface side. 15. The coated cBN sintered body tool according to claim 1, wherein the upper layer is constituted by a compound represented by a compositional formula of Ti(CxN(1−x)) where x represents an atomic ratio of C based on the total amount of C and N, and satisfies 0.4≦x≦0.6, having an average layer thickness of 0.5 to 1.5 μm. 16. The coated cBN sintered body tool according to claim 1, wherein the first thin layer of the lower layer is constituted by a compound having the compositional formula of (Ti(1−y)Siy)N wherein y represents an atomic ratio of Si based on the total amount of Ti and Si, and satisfies 0.05≦y≦0.2, having an average layer thickness of 70 to 150 nm. 17. The coated cBN sintered body tool according to claim 1, wherein the second thin layer of the lower layer is constituted by a compound represented by a compositional formula of (Al(1−z)Crz)N, where z represents an atomic ratio of Cr based on the total amount of Al and Cr, and satisfies 0.25≦z≦0.35, having an average layer thickness of 70 to 150 nm. 18. The coated cBN sintered body tool according to claim 1, wherein the lower layer is an alternately laminated layer having an average layer thickness of 0.3 to 0.8 μm with respect to the whole alternately laminated layer. 19. The coated cBN sintered body tool according to claim 1, wherein the undermost layer is constituted by a compound represented by a compositional formula of (Al(1−a)Cra)N (provided that a represents an atomic ratio of Cr based on the total amount of Al and Cr, and satisfies 0.25≦a≦0.35.) having an average layer thickness of 70 to 150 nm. 20. The coated cBN sintered body tool according to claim 1, wherein a total layer thickness of the whole coating layer is 0.4 to 6.8 μm in an average film thickness. 21. The coated cBN sintered body tool according to claim 1, wherein an outermost layer comprising a compound represented by a compositional formula of TiN and having an average layer thickness of 0.05 to 3.0 μm is coated on the surface of the upper layer. 22. A tool capable of machining a high hardness material comprising the coated cBN sintered body tool according to claim 1. 23. The tool according to claim 22, capable of machining a high hardness material having a hardness of HRC 40 or more.