WO2011105730A2 - 화학적 기계적 연마 장치의 리테이너 링 제조 방법 - Google Patents
화학적 기계적 연마 장치의 리테이너 링 제조 방법 Download PDFInfo
- Publication number
- WO2011105730A2 WO2011105730A2 PCT/KR2011/001152 KR2011001152W WO2011105730A2 WO 2011105730 A2 WO2011105730 A2 WO 2011105730A2 KR 2011001152 W KR2011001152 W KR 2011001152W WO 2011105730 A2 WO2011105730 A2 WO 2011105730A2
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- WO
- WIPO (PCT)
- Prior art keywords
- pin
- manufacturing
- ring
- retainer ring
- ring member
- Prior art date
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Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B24—GRINDING; POLISHING
- B24B—MACHINES, DEVICES, OR PROCESSES FOR GRINDING OR POLISHING; DRESSING OR CONDITIONING OF ABRADING SURFACES; FEEDING OF GRINDING, POLISHING, OR LAPPING AGENTS
- B24B37/00—Lapping machines or devices; Accessories
- B24B37/27—Work carriers
- B24B37/30—Work carriers for single side lapping of plane surfaces
- B24B37/32—Retaining rings
Definitions
- the present invention relates to a method of manufacturing a retainer ring of a chemical mechanical polishing apparatus, and more particularly, to easily manufacture a retainer ring wrapped with an engineering plastic material such as polyetheretherketone (PEEK).
- PEEK polyetheretherketone
- CMP chemical mechanical polishing
- the chemical mechanical polishing apparatus is an apparatus for flattening or removing an oxide film or a metal thin film coated on a semiconductor wafer by using a chemical action and a physical action.
- the chemical mechanical polishing apparatus includes a polishing head 5, which is formed on a lower surface of a wafer receiving portion for accommodating a semiconductor wafer 7, connected to a motor, and rotated, and a lower portion of the polishing head 5.
- a polishing pad 6 disposed on the polishing pad 5 for polishing the surface of the semiconductor wafer 7 accommodated in the polishing head 5, and an abrasive supply portion for supplying a chemical polishing agent to the polishing pad 6;
- the polishing head 5 is equipped with a retainer ring 1 which forms a wafer accommodating portion on a lower surface thereof.
- the retainer ring 1 has a mounting ring member 1a mounted to a carrier of the polishing head 5 and a plurality of abrasive supply grooves coupled to a lower portion of the mounting ring member 1a and spaced apart from the lower surface thereof. And a contact ring member 1b formed in contact with the polishing pad 6.
- the mounting ring member 1a and the contact ring member 1b are joined by bonding using an adhesive.
- the mounting ring member is made of metal such as stainless steel, and the contact ring member is made of engineering plastic.
- the semiconductor wafer 7 is not caught by the inner circumferential surface of the retainer ring 1 in the receiving portion of the polishing head 5.
- a slurry which is a chemical abrasive, is supplied to the polishing pad 6 by the abrasive supply unit.
- the slurry is supplied into the semiconductor accommodating portion through the abrasive supply groove of the contact ring member 1b to oxidize the surface of the semiconductor wafer 7.
- the chemical mechanical polishing apparatus is to uniformly planarize the surface of the semiconductor wafer 7 while repeating the chemical oxidation action by the slurry and the mechanical polishing action by the polishing pad 6.
- the conventional retainer ring 1 has a weak adhesive force between the mounting ring member 1a and the contact ring member 1b, and thus does not stably support the semiconductor wafer 7.
- the semiconductor wafer 7 may also be broken during the flattening operation of the semiconductor wafer 7.
- the conventional retainer ring 1 has a structure in which the mounting ring member 1a made of metal is exposed to the outside.
- the mounting ring member 1a which is a metal material, so that the slurry, which is a chemical abrasive, adheres better.
- the slurry adheres to the mounting ring member 1a and hardens and then is released during the polishing operation to cause a defect of the semiconductor wafer 7.
- the conventional retainer ring 1 has a problem that the mounting ring member 1a, which is a metal material, is corroded by a chemical abrasive.
- the chemical mechanical polishing apparatus is provided with a membrane 8 for adsorbing the semiconductor wafer 7 under vacuum pressure on the polishing head 5.
- the chemical abrasive is sandwiched between the membrane 8 and the retainer ring 1 as well as between the mounting ring member 1a and the contact ring member 1b to form a larger particle.
- the particles are released to cause scratches on the surface of the semiconductor wafer 7 on the polishing pad 6 and to break the semiconductor wafer 7.
- the object of the present invention is a pin mounting step for coupling the retainer ring manufacturing pin to the pin coupling hole of the insertion ring member formed with a plurality of pin coupling holes spaced apart;
- the present invention can simply produce a retainer ring wrapped with a ring of metal material in an outer shell of a synthetic resin material.
- the present invention reduces the defective rate in the manufacture of the retainer ring of the chemical mechanical polishing apparatus.
- the present invention improves the productivity and quality of the retainer ring of a chemical mechanical polishing apparatus.
- FIG. 1 is a cross-sectional view schematically showing a polishing head equipped with a conventional retainer ring
- Figure 2 is a view sequentially showing a method of manufacturing a retainer ring of the present inventors chemical mechanical polishing apparatus
- Figure 3 is a perspective view showing an example of a retainer ring manufacturing pin of the chemical mechanical polishing apparatus used in the present invention
- Figure 4 is a perspective view showing another embodiment of the retainer ring manufacturing pin of the chemical mechanical polishing apparatus used in the present invention
- FIG. 5 is a cross-sectional view showing the pin mounting step of the present invention.
- Figure 6 is a cross-sectional view showing a comparative example of the pin mounting step of the present invention
- Figure 7 is a cross-sectional view showing a ring arrangement step of the present invention
- FIG. 8 is a cross-sectional view taken along the line A-A 'of FIG.
- FIG. 10 is a cross-sectional view taken along line B-B 'of FIG.
- outer shell member 10 retainer ring manufacturing pin
- the retainer ring manufacturing method is to produce a retainer ring of a chemical mechanical polishing apparatus which completely surrounds the outer circumference of the insert ring member 2 with the shell member 3.
- the retainer ring manufacturing method is to use the retainer ring manufacturing pin 10 coupled to the insertion ring member (2).
- the pin mounting step 100, the ring arrangement step 110, and the molding step 120 are sequentially performed.
- the retainer ring manufacturing method further includes a ring body manufacturing step 90 made before the ring arrangement step 110.
- the ring body manufacturing step 90 is a step of manufacturing the insertion ring member (2).
- the retainer ring manufacturing method further includes a pin cutting step 130 and a post processing step 140 performed after the molding step 120.
- the ring body manufacturing step 90 manufactures an insertion ring member 2 in which a plurality of pin coupling holes 2a are spaced apart.
- the ring body manufacturing step 90 manufactures the insert ring member 2 by die casting.
- the insertion ring member 2 is preferably made of a metal material in order to increase the weight of the retainer ring 1 manufactured in the present invention and to increase rigidity.
- the metal material is stainless steel (SUS).
- the insertion ring member 2 may be made of a synthetic resin material having rigidity.
- the ring body manufacturing step 90 includes a resin separation process of separating the synthetic resin material from the retainer ring of the chemical mechanical polishing apparatus to be discarded;
- the ring body manufacturing step 90 recycles the synthetic resin material used in the retainer ring 1 of the discarded chemical mechanical polishing apparatus.
- the manufacturing cost of the retainer ring is reduced, and the amount of industrial waste generated in manufacturing the retainer ring is reduced. And the waste disposal cost is reduced.
- the pin mounting step 110 is to couple the retainer ring manufacturing pin 10 to the pin coupling hole (2a) of the insertion ring member (2).
- the retainer pin 10 is coupled and fixed in the mold 4.
- the retainer ring manufacturing pin 10 includes a fitting portion 11 that is forcibly fitted into the pin coupling hole 2a and a gap retaining protrusion that protrudes to the upper portion of the fitting portion 11. 12).
- the gap maintaining protrusion 12 is coupled to the pin mounting groove 4c in the mold 4.
- the retainer ring manufacturing pin (not shown) is forcibly fitted into the pin coupling hole 2a, although not shown, and engages with a protrusion (not shown) projecting in the mold.
- the retainer ring manufacturing pin 10 may be variously modified to have a structure coupled to the mold 4 in addition to the above two examples.
- the retainer ring manufacturing pin 10 includes a fitting portion 11 forcibly fitted into the pin coupling hole 2a and a gap retaining protrusion 12 protruding to an upper portion of the fitting portion 11.
- the pin mounting step 110 is to couple the fitting portion 11 to the pin coupling hole (2a) of the insertion ring member 2 by interference fit.
- the mounting portion 13 protrudes from the outer circumferential surface of the fitting portion 11.
- the seating portion 13 is seated on the upper surface of the insertion ring member 2.
- the seating part 13 is seated on an upper surface of the insertion ring member 2 to position the gap maintaining protrusion 12 vertically.
- a seating guide groove 13a is formed on the outer circumferential surface of the upper end of the fitting portion 11.
- the outer circumferential surface of the upper end of the fitting portion 11 is a connection portion of the lower surface of the seating portion 13 and the fitting portion 11.
- the seating guide groove 13a closely contacts the lower surface of the seating portion 13 to the upper surface of the insertion ring member 2.
- the pin mounting step 110 is the mounting portion 13 is in close contact with the upper surface of the insertion ring member 2, the spacing maintaining projection 12 is projected vertically.
- each of the plurality of spacing protrusions 12 is simply and accurately coupled to the plurality of pin mounting grooves 4c in the mold 4, respectively.
- the retainer pin 10 'of FIG. 6 has a round portion 13b' formed on an outer circumferential surface of the upper end of the fitting portion 11 '.
- the outer circumferential surface of the upper end of the fitting portion 11 ' is a connecting portion of the lower surface of the seating portion 13' and the fitting portion 11 '.
- the round part 13b ′ is necessarily formed when the seating part 13 ′ is formed to protrude from the upper outer circumferential surface of the fitting part 11 ′.
- the seating part 13' is not in close contact with the upper surface of the insertion ring member 2.
- a gap is generated between the seating portion 13 ′ and an upper surface of the insertion ring member 2.
- the spacing retaining projections 12 ′ flow and are difficult to stand vertically correctly. Referring to the mold 4 shown in FIG. 7, the gap maintaining protrusion 12 is easily shifted from the pin mounting groove 4c of the mold 4.
- an outer shell material forming the shell member 3 is not filled.
- the bonding force between the outer cover material and the retainer ring manufacturing pin 10 ' is weakened and a defect is generated.
- the ring arrangement step 110 is performed after the pin mounting step 100.
- the ring arranging step 110 combines the retainer ring manufacturing pin 10 into the mold 4 to place the insertion ring member 2. A space is formed around the insertion ring member 2 in the mold 4.
- the ring arrangement step 110 is variously performed by the structure of the retainer pin 10 for manufacturing.
- the first example of the ring arrangement step 110 uses the retainer manufacturing pin 10 provided with a space keeping protrusion 12 protruding to one surface of the insertion ring member 2.
- the inside of the mold 4 is provided with a pin mounting groove 4c into which the gap maintaining protrusion 12 is inserted.
- the insertion ring member 2 is disposed into the mold 4 by engaging the gap retaining protrusion 12 with the pin mounting groove 4c of the mold 4.
- the second example of the ring arrangement step uses a retainer pin (not shown) with an insert (not shown) that engages with a protrusion (not shown) in the mold.
- the insertion ring member is placed into the mold by inserting a protrusion (not shown) of the mold into an insertion portion (not shown) of the retainer pin.
- the ring arrangement step 110 of the first example and the ring arrangement step of the second example have a coupling structure in which protrusions are projected on one side of a retainer pin and a mold, and an insertion portion is inserted into the other side.
- the ring arrangement step 110 of the first example is a structure capable of fine flow of the gap maintaining protrusion 12. Therefore, in the ring arrangement step 110 of the first example, the pin mounting groove 4c and the gap maintaining protrusion 12 in the mold 4 can be easily combined, so that the operation is simple and the defective rate generated during the placement operation is reduced. It is low and productivity is excellent.
- the ring arrangement step of the second example should be exactly the position of the protrusion (not shown) of the mold and the insertion portion (not shown) of the retainer pin.
- the first example has a lower defective rate when manufacturing the retainer ring than the ring placement step of the second example, and the ring placement work in the mold is easy.
- the mold 4 includes a stationary mold 4a and a moving mold 4b detachably coupled to the stationary mold 4a.
- the fixing die 4a has a plurality of pin mounting grooves 4c formed therein.
- the space keeping protrusion 12 is coupled to the pin mounting groove 4c. .
- the ring arranging step 110 includes a mold opening process of moving the moving mold 4b to open an inner space of the mold 4;
- the plurality of spacing holding protrusions 12 protruding from one surface of the insertion ring member 2 are coupled to the plurality of pin mounting grooves 4c to space the space from an inner surface of the fixing mold 4a.
- the ring arrangement step 110 arranges the insertion ring member 2 such that a space is formed around the insertion ring member 2 in the mold 4.
- the ring arrangement process has various examples depending on the moving direction of the moving mold 4b.
- the moving mold 4b may move horizontally to open and close the inside of the mold 4.
- the insertion ring member 2 stands up and is coupled to the fixed mold 4a.
- the moving mold 4b may vertically move to open and close the inside of the mold 4.
- the insertion ring member 2 is laid down and coupled to the fixing mold 4a.
- the ring arrangement process is variously modified according to the opening and closing structure of the mold (4).
- a molding step 120 for injecting an outer shell material into a space part of the mold 4 is performed.
- the molding step 120 fills the outer shell material in the space in the mold 4 formed around the insertion ring member 2.
- the shell material When the shell material is dried, it becomes the shell member 3 surrounding the outer circumference of the insertion ring member 2.
- the molding step 120 includes an injection process of injecting an outer shell material into the space in the mold 4 and a drying process of hardening the outer shell material to become the outer shell member 3 after the injection process.
- the shell material may be polyether ether ketone (PEEK).
- PEEK polyether ether ketone
- the envelope may be used to select any one of the engineering plastics.
- PPS polyphenylsulfide
- PBI polybenzimidazole
- PBI polycarbonate
- acetal polyetheramide
- PBT polybutylene terephthalate
- PET polyethylene terephthalate
- the sheath member 3 is formed by hardening the sheath material and surrounds the entire outer surface of the insertion ring member 2 and contacts the polishing pad of the chemical mechanical polishing apparatus.
- the retainer ring manufacturing pin 10 has a pin fixing hole 11a penetrating up and down in the fitting portion 11.
- the pin fixing hole (11a) is formed to open to the outer peripheral surface of the fitting portion (11).
- the shell material is smoothly filled in the pin fixing hole (11a).
- the pin fixing hole 11a ′ may not be opened to the outer circumferential surface of the fitting portion 11.
- the shell material in the molding step 120 is not smoothly filled in the pin fixing hole (11a ').
- the pin fixing hole 11a is filled with an outer cover material.
- the outer shell material filled in the pin fixing hole 11a connects the upper and lower surfaces of the outer shell member 3.
- the retainer ring manufacturing pin 10 is firmly integrated with the outer shell member 3 by hardening the outer shell material in the pin fixing hole 11a.
- the seating guide groove 13a is formed in communication with the pin fixing hole 11a.
- the envelope material is introduced into the seating guide groove 13a through the pin fixing hole 11a and filled.
- the shell material is filled in the seating guide groove 13a.
- the retainer ring manufacturing pin 10 is more firmly integrated with the outer shell member 3 by hardening the outer shell material filled in the seating guide groove 13a.
- a pin fixing protrusion 14 protrudes from the lower portion of the fitting portion 11 of the retainer ring manufacturing pin 10.
- the shell material is filled in the pin engagement hole 2a to surround the pin fixing protrusion 14.
- the pin fixing protrusion 14 increases the contact area between the retainer ring manufacturing pin 10 and the shell member 3.
- the retainer ring manufacturing pin 10 is more tightly integrated with the shell member 3.
- the retainer ring manufacturing pin 10 is made of the same material as the shell material injected into the mold 4 in the molding step 120.
- the retainer ring manufacturing pin 10 is integrated with the outer shell member 3 surrounding the insertion ring member 2 without heterogeneity.
- the pin cutting step 130 removes a portion protruding to the outside of the shell member 3 from the retainer ring 1 drawn out in the mold 4 after the molding step 120. More).
- the pin cutting step 130 cuts and removes a portion protruding to the outside of the shell member 3 of the gap retaining protrusion 12 of the retainer ring manufacturing pin 10.
- a cutting guide groove 12a is formed on an outer circumferential surface of the lower portion of the gap maintaining protrusion 12.
- the cutting guide groove 12a has a height corresponding to the thickness of the shell member 3.
- the pin cutting step 130 cuts a boundary line between the cutting guide groove 12a and the gap maintaining protrusion 12.
- the cutting guide groove 12a marks the boundary of the portion to be cut in the pin cutting step 130 and minimizes the cutting diameter.
- the gap maintaining protrusion 12 is easily cut in the pin cutting step 130.
- retainer ring manufacturing pin 10 is coupled to the insertion ring member 2, the pin coupling hole (2a) of the insertion ring member 2 and The outer shell member 3 surrounding the insertion ring member 2 is integrated.
- the pin cutting step 130 further includes a post-processing step 140 for forming a ring mounting groove 3a in the retainer ring 1.
- the post-processing step 140 forms a ring mounting groove 3a in a portion where the retainer ring manufacturing pin 10 is inserted.
- the ring mounting groove 3a is formed by drilling the retainer ring manufacturing pin 10 at a position corresponding to the pin coupling hole 2a of the insertion ring member 2.
- An inner circumferential surface of the ring mounting groove 3a forms a screw groove that is capable of bolting.
- the retainer ring 1 is mountable to the polishing header of the chemical mechanical polishing apparatus by bolting.
- a plurality of abrasive supply grooves 3b spaced apart are formed on the lower surface of the shell member 3.
- the abrasive feed groove 3b is formed in the mold 4 in the molding step 120 or is processed and formed in the post-processing step 140.
- the retainer ring 1 of the chemical mechanical polishing apparatus manufactured by the present invention has a shape wrapped around the outer circumference of the insert ring member 2 by the shell member 3.
- the retainer ring 1 is not exposed to the insertion ring member 2 made of a metal material to the outside.
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Mechanical Treatment Of Semiconductor (AREA)
- Finish Polishing, Edge Sharpening, And Grinding By Specific Grinding Devices (AREA)
- Injection Moulding Of Plastics Or The Like (AREA)
- Moulds For Moulding Plastics Or The Like (AREA)
Abstract
Description
Claims (14)
- 복수의 핀 결합 구멍이 이격되게 형성된 삽입 링부재의 핀 결합 구멍에 리테이너 링 제조용 핀을 결합시키는 핀 장착 단계와;상기 리테이너 링 제조용 핀을 금형 내에서 결합시켜 상기 금형 내에서 상기 삽입 링부재의 둘레로 공간이 형성되게 상기 삽입 링부재를 배치시키는 링 배치 단계와;상기 링 배치 단계를 거쳐 상기 삽입 링부재가 내부에 배치된 금형 내로 외피재를 주입하여 상기 삽입 링부재를 외피부재로 감싸는 몰딩 단계를 포함한 것을 특징으로 하는 화학적 기계적 연마 장치의 리테이너 링 제조 방법.
- 청구항 1에 있어서,상기 리테이너 링 제조용 핀은 상기 삽입 링부재의 일 면으로 돌출되는 간격 유지 돌기가 구비되며,상기 링 배치 단계는 상기 간격 유지 돌기를 상기 금형 내의 홈에 결합시켜 상기 삽입 링부재의 둘레로 공간이 형성되게 상기 삽입 링부재를 배치시킨 것을 특징으로 하는 화학적 기계적 연마 장치의 리테이너 링 제조 방법.
- 청구항 1에 있어서,상기 핀 장착 단계 전에 상기 복수의 핀 결합 구멍이 이격되게 형성된 삽입 링부재를 제조하는 링 몸체 제조 단계를 더 포함하며,상기 링 몸체 제조 단계는 상기 삽입 링부재를 상기 몰딩 단계의 외피재와 동일한 재질로 제조한 것을 특징으로 하는 화학적 기계적 연마 장치의 리테이너 링 제조 방법.
- 청구항 3에 있어서,상기 링 몸체 제조 단계는 폐기된 화학적 기계적 연마 장치의 리테이너 링에서 사용된 합성 수지재를 재활용하여 상기 삽입 링부재를 제조하는 것을 특징으로 하는 화학적 기계적 연마 장치의 리테이너 링 제조 방법.
- 청구항 1에 있어서,상기 리테이너 링 제조용 핀은,상기 핀 결합 구멍에 억지 끼움되는 끼움부와;상기 끼움부의 상부로 돌출되어 상기 삽입 링부재의 일면에 돌출되는 간격 유지 돌기부를 포함하며,상기 핀 장착 단계는 상기 삽입 링부재의 핀 결합 구멍에 상기 끼움부를 억지 끼움으로 결합시키는 것을 특징으로 하는 화학적 기계적 연마 장치의 리테이너 링 제조 방법.
- 청구항 5에 있어서,상기 끼움부의 외주면에는 상기 삽입 링부재의 상부면에 안착되는 안착부가 돌출되며,상기 핀 장착 단계는 상기 안착부의 하부면이 상기 삽입 링부재의 상부면에 안착되게 상기 끼움부를 상기 핀 결합 구멍에 결합시키는 것을 특징으로 하는 화학적 기계적 연마 장치의 리테이너 링 제조 방법.
- 청구항 6에 있어서,상기 안착부의 하부면과 상기 끼움부의 연결부분의 외주면에는 안착 가이드 홈이 형성되며,상기 핀 장착 단계는 상기 안착부의 하부면을 상기 삽입 링부재의 상부면에 밀착시켜 상기 간격 유지 돌기부를 수직으로 배치한 것을 특징으로 하는 화학적 기계적 연마 장치의 리테이너 링 제조 방법.
- 청구항 5에 있어서,상기 리테이너 링 제조용 핀의 끼움부에는 상, 하로 관통된 핀 고정 구멍이 형성되며,상기 몰딩 단계는 상기 핀 고정 구멍에 외피재를 채워 상기 삽입 링부재의 외측 둘레를 감싸는 외피부재의 상, 하부를 연결한 것을 특징으로 하는 화학적 기계적 연마 장치의 리테이너 링 제조 방법.
- 청구항 8에 있어서,상기 핀 고정 구멍은 상기 끼움부의 외주면으로 개방되게 형성된 것을 특징으로 하는 화학적 기계적 연마 장치의 리테이너 링 제조 방법.
- 청구항 9에 있어서,상기 끼움부의 외주면에는 상기 삽입 링부재의 상부면에 안착되는 안착부가 돌출되고, 상기 안착부의 하부면과 상기 끼움부의 연결부분의 외주면에는 상기 핀 고정 구멍과 연통되게 안착 가이드 홈이 형성되며,상기 몰딩 단계는 외피재를 상기 핀 고정 구멍 및 상기 안착 가이드 홈에 채운 것을 특징으로 하는 화학적 기계적 연마 장치의 리테이너 링 제조 방법.
- 청구항 5에 있어서,상기 끼움부의 하부에는 핀 고정 돌기가 돌출되며,상기 몰딩 단계는 상기 핀 결합 구멍의 하부에서 상기 핀 고정 돌기를 감싸도록 외피재를 채운 것을 특징으로 하는 화학적 기계적 연마 장치의 리테이너 링 제조 방법.
- 청구항 2에 있어서,상기 몰딩 단계 후 금형 내에서 인출된 리테이너 링에서 상기 외피부재의 외부로 돌출된 부분을 제거하는 핀 절단 단계를 더 포함하는 것을 특징으로 하는 화학적 기계적 연마 장치의 리테이너 링 제조 방법.
- 청구항 12에 있어서,상기 간격 유지 돌기부의 외주면에는 상기 외피부재의 두께에 대응되는 높이를 가지는 절단 가이드 홈이 형성되고,상기 핀 절단 단계는 상기 절단 가이드 홈과 상기 간격 유지 돌기부의 경계선을 절단하는 것을 특징으로 하는 화학적 기계적 연마 장치의 리테이너 링 제조 방법.
- 청구항 12에 있어서,상기 핀 절단 단계 후에 상기 리테이너 링 제조용 핀을 가공하여 링 장착 홈을 형성하는 후가공 단계를 더 포함하는 것을 특징으로 하는 화학적 기계적 연마 장치의 리테이너 링 제조 방법.
Priority Applications (1)
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US13/579,728 US9005499B2 (en) | 2010-02-25 | 2011-02-22 | Method for manufacturing retainer ring of chemical mechanical polishing device |
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KR1020100017161A KR101003525B1 (ko) | 2010-02-25 | 2010-02-25 | 화학적 기계 연마 장치의 리테이너 링 제조 방법 |
KR10-2010-0017161 | 2010-02-25 |
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WO2011105730A2 true WO2011105730A2 (ko) | 2011-09-01 |
WO2011105730A3 WO2011105730A3 (ko) | 2011-11-24 |
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PCT/KR2011/001152 WO2011105730A2 (ko) | 2010-02-25 | 2011-02-22 | 화학적 기계적 연마 장치의 리테이너 링 제조 방법 |
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US (1) | US9005499B2 (ko) |
KR (1) | KR101003525B1 (ko) |
TW (1) | TWI435383B (ko) |
WO (1) | WO2011105730A2 (ko) |
Cited By (1)
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US20150183077A1 (en) * | 2012-08-29 | 2015-07-02 | Cnus Co., Ltd. | Retainer ring structure for chemical-mechanical polishing apparatus and method for manufacturing the same |
Families Citing this family (10)
Publication number | Priority date | Publication date | Assignee | Title |
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KR101364089B1 (ko) * | 2012-06-26 | 2014-02-19 | (주)아이에스테크노 | 웨이퍼 연마용 리테이너 링 및 그 제조방법 |
KR101328411B1 (ko) * | 2012-11-05 | 2013-11-13 | 한상효 | 웨이퍼 연마용 리테이너 링 제조 방법 |
US20150050869A1 (en) * | 2013-08-13 | 2015-02-19 | Cnus Co., Ltd. | Retainer ring structure for chemical-mechanical polishing machine and method for manufacturing the same |
JP6252734B2 (ja) * | 2013-08-14 | 2017-12-27 | シーエヌユーエス カンパニー,リミテッド | 化学機械的研磨装置用リテーナリング構造物およびその製造方法 |
CN104416455A (zh) * | 2013-08-20 | 2015-03-18 | Cnus株式会社 | 化学机械抛光装置用扣环结构物及其制造方法 |
US20150283668A1 (en) * | 2014-04-04 | 2015-10-08 | SPM Technology, Inc. | Retaining ring assembly with inserts |
KR102087449B1 (ko) * | 2014-11-17 | 2020-03-10 | 유승열 | 화학기계적 연마장치용 리테이너 링 및 제조방법 |
US9744640B2 (en) | 2015-10-16 | 2017-08-29 | Applied Materials, Inc. | Corrosion resistant retaining rings |
US11565367B2 (en) * | 2020-07-09 | 2023-01-31 | Applied Materials, Inc. | Retaining ring |
WO2023120869A1 (ko) * | 2021-12-20 | 2023-06-29 | 주식회사 케이씨텍 | 고정밀 기판 연마 시스템 |
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- 2011-02-22 US US13/579,728 patent/US9005499B2/en active Active
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KR200242842Y1 (ko) * | 2001-05-10 | 2001-10-15 | 삼성전자 주식회사 | 반도체제조장치에 사용되는 리테이너 링 |
KR20070118277A (ko) * | 2005-04-12 | 2007-12-14 | 니혼 세이미츠 덴시 가부시키가이샤 | Cmp 장치용 리테이너링과 그 제조방법 및 cmp 장치 |
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US20150183077A1 (en) * | 2012-08-29 | 2015-07-02 | Cnus Co., Ltd. | Retainer ring structure for chemical-mechanical polishing apparatus and method for manufacturing the same |
US10449649B2 (en) * | 2012-08-29 | 2019-10-22 | Cnus Co., Ltd. | Retainer ring structure for chemical-mechanical polishing apparatus and method for manufacturing the same |
Also Published As
Publication number | Publication date |
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WO2011105730A3 (ko) | 2011-11-24 |
TW201145376A (en) | 2011-12-16 |
TWI435383B (zh) | 2014-04-21 |
KR101003525B1 (ko) | 2010-12-30 |
US20120319321A1 (en) | 2012-12-20 |
US9005499B2 (en) | 2015-04-14 |
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