Super abrasive wheel with dispensing capability, method of manufacturing wafer using the same, and wafer
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B24D-007/18
B24D-007/06
B24D-007/10
B24B-007/22
출원번호
US-0519210
(2010-06-09)
등록번호
US-9011206
(2015-04-21)
우선권정보
JP-2010-004998 (2010-01-13)
국제출원번호
PCT/JP2010/059748
(2010-06-09)
§371/§102 date
20120626
(20120626)
국제공개번호
WO2011/086715
(2011-07-21)
발명자
/ 주소
Ishizu, Tomohiro
Okanishi, Yukio
Kumazawa, Teruyuki
출원인 / 주소
A.L.M.T. Corp.
대리인 / 주소
Birch, Stewart, Kolasch & Birch, LLP
인용정보
피인용 횟수 :
0인용 특허 :
7
초록▼
The super abrasive wheel includes a core rotating around a rotation axis and a super abrasive layer bonded to the core. The core has a first surface and a second surface located opposite to the first surface. An annular first protrusion portion protruding in the direction away from the first surface
The super abrasive wheel includes a core rotating around a rotation axis and a super abrasive layer bonded to the core. The core has a first surface and a second surface located opposite to the first surface. An annular first protrusion portion protruding in the direction away from the first surface is provided at a portion of the second surface that is surrounded with the super abrasive layer. A reference surface is provided in the second surface on the inside of the first protrusion portion. The height from the reference surface to the first protrusion portion is denoted as A. A top portion having the height B from the reference surface is provided at a portion of the second surface between the first protrusion portion and the super abrasive layer. The height B is greater than the height A.
대표청구항▼
1. A super abrasive wheel comprising: a core configured to rotate around a rotation axis; anda super abrasive layer bonded to the core,the core having a first surface and a second surface located opposite to the first surface, whereinan annular protrusion portion protruding in a direction away from
1. A super abrasive wheel comprising: a core configured to rotate around a rotation axis; anda super abrasive layer bonded to the core,the core having a first surface and a second surface located opposite to the first surface, whereinan annular protrusion portion protruding in a direction away from the first surface is provided at a portion of the second surface that is surrounded with the super abrasive layer,a reference surface is provided at a portion of the second surface on the inside of the protrusion portion,a height from the reference surface to the protrusion portion is denoted as A, anda top portion having a height B from the reference surface is provided at a portion of the second surface between the protrusion portion and the super abrasive layer, wherein the height B is greater than the height A,said protrusion portion is formed by a rising wall that extends to the height A and an inverted taper surface that inclines from an intersection with the rising wall back toward the first surface to a height from the reference surface that is less than height A, in a direction toward a peripheral of said core, andgrinding fluid is supplied to said core, the grinding fluid receives centrifugal force in the outward direction as said core rotates, the grinding fluid moves downward along said rising wall as it moves in the downward direction due to gravity, and the grinding fluid, passing through said rising wall, diffuses from said inverted taper surface. 2. The super abrasive wheel according to claim 1, wherein a wall surface on an inner circumferential side of the protrusion portion is approximately parallel to the rotation axis. 3. The super abrasive wheel according to claim 1, wherein a plurality of the protrusion portions are provided on an inner circumferential side of the super abrasive layer, and in the protrusion portions adjacent to each other, the height from the reference surface is lower in the protrusion portion on the inner circumferential side than in the protrusion portion on the outer circumferential side. 4. The super abrasive wheel according to claim 1, wherein the height A from the reference surface of the protrusion portion located on an innermost circumferential side is 3 mm or more. 5. The super abrasive wheel according to claim 1, wherein a difference between the height B and the height A is 1 mm or more. 6. The super abrasive wheel according to claim 1, wherein the protrusion portion is shaped like a circular ring. 7. The super abrasive wheel according to claim 1, wherein the protrusion portion has a function of making grinding fluid into finer particles and uniformly distributing the grinding fluid. 8. A method of manufacturing a wafer, comprising bringing the super abrasive layer of the super abrasive wheel of claim 1 into contact with a wafer and polishing the wafer while supplying grinding fluid from an inner circumferential side of the protrusion portion. 9. A wafer manufactured through the method of claim 8. 10. A super abrasive wheel comprising: a core configured to rotate around a rotation axis;a super abrasive layer bonded to the core,the core having a first surface and a second surface located opposite to the first surface; anda protrusion member provided at a portion of the second surface that is surrounded with the super abrasive layer, the protrusion member having an annular protrusion portion that protrudes in a direction away from the first surface, whereina reference surface is provided at a portion of the second surface on the inside of the protrusion portion,a height from the reference surface to the protrusion portion is denoted as A, anda top portion having a height B from the reference surface is provided at a portion of the second surface between the protrusion portion and the super abrasive layer, wherein the height B is greater than the height A,said protrusion portion is formed by a rising wall that extends to the height A and an inverted taper surface that inclines from an intersection with the rising wall back toward the first surface to a height from a reference surface that is less than height A, in a direction toward a peripheral of said core, andgrinding fluid is supplied to said core, the grinding fluid receives centrifugal force in the outward direction as said core rotates, the grinding fluid moves downward along said rising wall as it moves in the downward direction due to gravity, and the grinding fluid, passing through said rising wall, diffuses from said inverted taper surface. 11. The super abrasive wheel according to claim 10, wherein a wall surface on an inner circumferential side of the protrusion portion is approximately parallel to the rotation axis. 12. The super abrasive wheel according to claim 10, wherein a plurality of the protrusion portions are provided on an inner circumferential side of the super abrasive layer, and in the protrusion portions adjacent to each other, the height from the reference surface is lower in the protrusion portion on the inner circumferential side than in the protrusion portion on the outer circumferential side. 13. The super abrasive wheel according to claim 10, wherein the height A from the reference surface of the protrusion portion located on an innermost circumferential side is 3 mm or more. 14. The super abrasive wheel according to claim 10, wherein a difference between the height B and the height A is 1 mm or more. 15. The super abrasive wheel according to claim 10, wherein the protrusion portion is shaped like a circular ring. 16. The super abrasive wheel according to claim 10, wherein the protrusion portion has a function of making grinding fluid into finer particles and uniformly distributing the grinding fluid. 17. A method of manufacturing a wafer, comprising bringing the super abrasive layer of the super abrasive wheel of claim 10 into contact with a wafer and polishing the wafer while supplying grinding fluid from an inner circumferential side of the protrusion portion. 18. A wafer manufactured through the method of claim 17.
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Elmar Wittenzellner,DEX ; Sekiya Kenichi,JPX, Apparatus and method for machining workpieces by flushing working liquid to the tool-and-workpiece interface.
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