Coated cutting tool with brazed-in superhard blank
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B32B-018/00
B32B-007/04
B32B-015/04
출원번호
UP-0463379
(2003-06-17)
등록번호
US-7592077
(2009-10-20)
발명자
/ 주소
Gates, Jr., Alfred S.
Oles, Edward J.
Reiner, Kent L.
Alexander, IV, William M.
Genain, Jean Pierre
출원인 / 주소
Kennametal Inc.
대리인 / 주소
Gordon, Matthew W.
인용정보
피인용 횟수 :
25인용 특허 :
56
초록▼
A coated cutting tool that comprises a body containing a pocket. The tool further includes a polycrystalline cubic boron nitride blank that is brazed into the pocket using a braze alloy. The braze alloy has a liquidus temperature of at least about 900 degrees Centigrade. There is a coating applied t
A coated cutting tool that comprises a body containing a pocket. The tool further includes a polycrystalline cubic boron nitride blank that is brazed into the pocket using a braze alloy. The braze alloy has a liquidus temperature of at least about 900 degrees Centigrade. There is a coating applied to the cutting tool.
대표청구항▼
What is claimed is: 1. A coated cutting tool comprising: a body, the body containing a pocket; an uncoated polycrystalline cubic boron nitride blank wherein the polycrystalline cubic boron nitride blank comprises about 90 volume percent cubic boron nitride and about 10 volume percent of aluminum ni
What is claimed is: 1. A coated cutting tool comprising: a body, the body containing a pocket; an uncoated polycrystalline cubic boron nitride blank wherein the polycrystalline cubic boron nitride blank comprises about 90 volume percent cubic boron nitride and about 10 volume percent of aluminum nitride and titanium diboride and silicon carbide; the uncoated blank being brazed into the pocket using a braze alloy whereby there is a braze joint between the uncoated blank and the body; the braze alloy having a liquidus temperature of at least about 900 degrees Centigrade; and a coating applied to the uncoated blank brazed into the pocket. 2. The coated cutting tool of claim 1 wherein the coating is applied by physical vapor deposition. 3. The coated cutting tool of claim 1 wherein the coating is applied by a combination of physical vapor deposition and chemical vapor deposition. 4. The coated cutting tool of claim 1 wherein the coating is applied by chemical vapor deposition. 5. The coated cutting tool of claim 1 wherein the braze alloy comprises gold and copper, and the gold being present in an amount ranging between about 30 weight percent and about 60 weight percent, and the copper being present in an amount ranging between about 40 weight percent and about 70 weight percent. 6. The coated cutting tool of claim 5 wherein the braze alloy further includes nickel, and the nickel being present in an amount between about 2 weight percent and about 7 weight percent. 7. The coated cutting tool of claim 6 wherein the braze alloy comprises between about 35 weight percent to about 40 weight percent gold, between about 60 weight percent and about 65 weight percent copper, and between about 1 weight percent and about 5 weight percent nickel. 8. The coated cutting tool of claim 5 wherein the braze alloy comprises between about 30 weight percent and about 40 weight percent gold and between about 60 weight percent and about 70 weight percent copper. 9. The coated cutting tool of claim 5 wherein the braze alloy comprises between about 50 weight percent gold and about 50 weight percent copper. 10. The coated cutting tool of claim 5 wherein the braze alloy comprises between about 37.5 weight percent gold and about 62.5 weight percent copper. 11. The coated cutting tool of claim 1 wherein the braze alloy comprises gold and nickel, and the gold being present in an amount ranging between about 65 weight percent and about 90 weight percent, and, being present in an amount ranging between about 15 weight percent and about 25 weight percent. 12. The coated cutting tool of claim 11 wherein the braze alloy further includes palladium, and the palladium being present in an amount between about 5 weight percent and about 15 weight percent. 13. The coated cutting tool of claim 12 wherein the braze alloy comprises between about 65 weight percent to about 75 weight percent gold, between about 20 weight percent and about 25 weight percent nickel, and between about 5 weight percent and about 10 weight percent palladium. 14. The coated cutting tool of claim 13 wherein the braze comprises about 70 weight percent gold, about 22 weight percent nickel, and about 8 weight percent palladium. 15. The coated cutting tool of claim 11 wherein the braze alloy comprises between about 80 weight percent and about 85 weight percent gold and between about 15 weight percent and about 20 weight percent nickel. 16. The coated cutting tool of claim 1 wherein the braze alloy comprises between about 90 weight percent and about 98 weight percent silver and about 2 weight percent and about 10 weight percent palladium. 17. The coated cutting tool of claim 16 wherein the braze alloy comprises between about 93 weight percent and about 97 weight percent silver and about 3 weight percent and about 7 weight percent palladium. 18. The coated cutting tool of claim 1 wherein the liquidus temperature of the braze alloy is at least about 1000 degrees Centigrade. 19. The coated cutting tool of claim 1 wherein the liquidus temperature of the braze alloy is at least about 940 degrees Centigrade. 20. The coated cutting tool of claim 1 wherein the coating includes at least one layer of alumina applied by chemical vapor deposition at a temperature less than the liquidus temperature of the braze alloy. 21. The coated cutting tool of claim 20 wherein the coating scheme further includes a layer of titanium oxycarbonitride applied by chemical vapor deposition at a temperature less than the liquidus temperature of the braze alloy. 22. The coated cutting tool of claim 20 wherein the coating scheme further includes a layer of titanium aluminum oxycarbonitride applied by chemical vapor deposition at a temperature less than the liquidus temperature of the braze alloy. 23. The coated cutting tool of claim 20 wherein the coating scheme further includes at least one layer of titanium carbonitride applied by chemical vapor deposition at a temperature less than the liquidus temperature of the braze alloy. 24. The coated cutting tool of claim 20 wherein the coating scheme further includes at least one layer of titanium nitride applied by chemical vapor deposition at a temperature less than the liquidus temperature of the braze alloy. 25. The coated cutting tool of claim 1 wherein the coating includes at least one layer of titanium aluminum nitride applied by physical vapor deposition. 26. The coated cutting tool of claim 1 wherein the polycrystalline cubic boron nitride blank comprises a layer of polycrystalline cubic boron nitride comprising about 50 volume percent cubic boron nitride and about 50 volume percent titanium carbide. 27. The coated cutting tool of claim 26 wherein the polycrystalline cubic boron nitride blank further includes a support an which the layer of polycrystalline cubic boron nitride is applied. 28. The coated cutting tool of claim 1 wherein the coating contains at least one layer comprising a nitride, carbide, carbonitride, oxynitride, oxycarbonitride, or oxycarbide of one or more of titanium, vanadium, chromium, zirconium, niobium, molybdenum, hafnium, tantalum, tungsten, aluminum, and silicon. 29. A coated cutting tool comprising: a body, the body containing a pocket; an uncoated superhard blank wherein the superhard blank comprises about 90 volume percent cubic boron nitride and about 10 volume percent of aluminum nitride and titanium diboride and silicon carbide; the uncoated blank being brazed into the pocket using a braze alloy whereby there is a braze joint between the uncoated blank and the body; the braze alloy having a liquidus temperature of at least about 900 degrees Centigrade wherein the braze alloy is selected from the group comprising a nickel-gold braze alloy containing nickel and gold, a copper-gold braze alloy containing copper and gold, and a silver-palladium braze alloy containing silver and palladium; and a coating applied to the uncoated blank brazed into the pocket. 30. The coated cutting tool of claim 29 wherein the coating contains at least one layer comprising a nitride, carbide, carbonitride, oxynitride, oxycarbonitride, or oxycarbide of one or more of titanium, vanadium, chromium, zirconium, niobium, molybdenum, hafnium, tantalum, tungsten, aluminum, and silicon. 31. The coated cutting tool of claim 29 wherein the coating scheme further includes a layer of titanium oxycarbonitride applied by chemical vapor deposition at a temperature less than the liquidus temperature of the braze alloy. 32. The coated cutting tool of claim 29 wherein the coating scheme further includes a layer of titanium aluminum oxycarbonitride applied by chemical vapor deposition at a temperature less than the liquidus temperature of the braze alloy. 33. The coated cutting tool of claim 29 wherein the coating scheme further includes at least a layer of titanium carbonitride applied by chemical vapor deposition at a temperature less than the liquidus temperature of the braze alloy. 34. The coated cutting tool of claim 29 wherein the coating is applied by physical vapor deposition. 35. The coated cutting tool of claim 29 wherein the coating is applied by a combination of physical vapor deposition and chemical vapor deposition. 36. The coated cutting tool of claim 29 wherein the coating is applied by chemical vapor deposition. 37. The coated cutting tool of claim 29 wherein the coating includes at least one layer of titanium nitride applied by chemical vapor deposition at a temperature less than the liquidus temperature of the braze alloy. 38. The coated cutting tool of claim 29 wherein the coating includes at least one layer of titanium aluminium nitride applied by physical vapor deposition.
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