Claims
- 1. A method of improving the planarity of a polishing pad for polishing a semiconductor wafer, comprising the steps of:providing a polishing layer of a polishing pad with an adhesive layer for adhering to a mounting surface, providing continuous air transmitting hollow pathways in communication with an end of the adhesive layer and in communication with a portion of a bottom layer of the polishing pad, pressing and flattening the air entrapping portion of the adhesive layer to collect air escaping along the hollow pathways, and sealing edges of respective hollow pathways where the respective hollow pathways are along a perimeter edge margin of the adhesive layer to reduce a size of the respective hollow pathways below a minimum size capillary for admitting polishing fluid of known surface tension.
- 2. The method as recited in claim 1, wherein the step of providing continuous hollow air transmitting pathways, further comprises the step of: embossing an adhesive bottom surface of the adhesive layer to provide said channel.
- 3. The method as recited in claim 1, wherein the step of providing continuous hollow air transmitting pathways, further comprises the step of: screen printing an adhesive bottom surface of said adhesive layer onto said pad to provide said channel.
- 4. The method as recited in claim 1, wherein the step of providing continuous hollow air transmitting pathways, further comprises the step of: cutting into an adhesive bottom surface of the adhesive layer to form said pathways.
- 5. The method as recited in claim 1, wherein the step of sealing edges of respective hollow pathways further comprises the step of: rolling a tool along the perimeter edge margin while guiding the tool as it is being rolled.
- 6. A method of improving the planarity of a polishing pad for polishing a semiconductor wafer, comprising the steps of:providing a polishing layer of a polishing pad with an adhesive layer for adhering to a mounting surface, providing continuous air transmitting hollow pathways in communication with an end of the adhesive layer and in communication with a portion of a bottom layer of the polishing pad by embedding strands in an adhesive bottom surface of the adhesive layer to form the pathways as indented hollow channels, and pressing and flattening the adhesive layer to collect air escaping along the hollow channels.
- 7. A polishing pad comprising: a polishing layer; an adhesive layer below the polishing layer, the adhesive layer having an adhesive bottom surface for adhering to a mounting surface, at least one air transmitting pathway in the adhesive bottom surface extending to an end of the adhesive layer at a perimeter of the adhesive layer, the pathway providing collection of air and escape of air from between the adhesive bottom surface and the mounting surface, and edges of the pathway along a perimeter edge margin of the adhesive bottom surface seal to the mounting surface to reduce a size of the pathway below a minimum size of a capillary for admitting polishing fluid of known surface tension.
- 8. The polishing pad of claim 7 wherein, said pathway comprises a channel in said adhesive bottom surface.
- 9. The polishing pad of claim 7 wherein, said pathway comprises an array of intersecting grooves.
- 10. The polishing pad of claim 7 wherein, a material strand is disposed in a hollow in the adhesive layer, and said pathway comprises a portion of the hollow that is unoccupied by the material strand.
- 11. The polishing pad of claim 7 wherein, material strands are arranged as a mesh disposed in a corresponding hollow in the adhesive layer, and said pathway comprises portions of the hollow that are unoccupied by the material strands.
- 12. The polishing pad of claim 7 wherein, said adhesive bottom surface is embossed with said pathway.
- 13. The polishing pad of claim 7 wherein, said adhesive bottom surface is printed with said pathway.
- 14. The polishing pad of claim 7 wherein, said adhesive bottom surface is cut with said pathway.
- 15. A polishing pad comprising: a polishing layer; an adhesive layer below the polishing layer, the adhesive layer having an adhesive bottom surface for adhering to a mounting surface, an air transmitting pathway in the adhesive bottom surface extending to an end of the adhesive layer at a perimeter of the adhesive layer, the pathway providing collection of air and escape of air from between the adhesive bottom surface and the mounting surface, a material strand disposed in a hollow in the adhesive layer, and said pathway comprising a portion of the hollow that is unoccupied by the material strand.
- 16. The polishing pad of claim 15 wherein the material strand is arranged as a mesh.
- 17. A polishing pad comprising: a polishing layer having a polishing surface; and an adhesive layer having an adhesive surface for adhering to a mounting surface, the adhesive layer including a channel in the adhesive surface extending to an end of the adhesive layer, wherein the channel provides collection of air and escape of air from under the adhesive surface, and edges of the channel being sealed along a perimeter edge margin of the adhesive bottom surface to reduce a size of the channel below a minimum size capillary for admitting polishing fluid of known surface tension.
- 18. A polishing pad comprising: a polishing layer having a polishing surface; and an adhesive layer having an adhesive surface for adhering to a mounting surface, the adhesive layer including a channel in the adhesive surface extending to an end of the adhesive layer, said channel providing collection of air and escape of air from under the adhesive surface; a material strand disposed in a hollow in the adhesive layer, and said channel comprising a portion of the hollow that is unoccupied by the material strand.
- 19. The polishing pad of claim 18 wherein the material strand is arranged as a mesh.
- 20. A polishing pad comprising:a polishing layer; an adhesive layer below the polishing layer, the adhesive layer having an adhesive bottom surface for adhering to a mounting surface, at least one air transmitting pathway in the adhesive bottom surface extending to an end of the adhesive layer at a perimeter of the adhesive layer, the pathway providing collection of air and escape of air from between the adhesive bottom surface and the mounting surface, and at least a portion of said pathway seals to the mounting surface to provide the pathway with a size below a minimum size of a capillary for admitting polishing fluid of known surface tension.
- 21. The polishing pad of claim 20 wherein, said at least a portion of said pathway is along a perimeter edge margin of the adhesive layer.
- 22. The polishing pad of claim 20 wherein, said pathway comprises a channel in said adhesive bottom surface.
- 23. The polishing pad of claim 20 wherein said pathway comprises an array of intersecting grooves.
- 24. The polishing pad of claim 20 wherein a material strand is disposed in a hollow in the adhesive layer, and said channel comprises a portion of the hollow that is unoccupied by the material strand.
- 25. The polishing pad of claim 24 wherein, material strands are arranged as a mesh disposed in a corresponding hollow in the adhesive layer, and said pathway comprises portions of the hollow that are unoccupied by the material strands.
- 26. The polishing pad of claim 20 wherein, edges of said at least a portion of the pathway are adapted for being sealed to said mounting surface to reduce said size below a minimum size capillary for admitting polishing fluid of known surface tension.
- 27. The polishing pad of claim 20 wherein, said adhesive bottom surface is embossed with said pathway.
- 28. The polishing pad of claim 20 wherein, said adhesive bottom surface is printed with said pathway.
- 29. The polishing pad of claim 20 wherein, said adhesive bottom surface is cut with said pathway.
CROSS REFERENCE TO RELATED APPLICATION
This application claims the benefit of U.S. Provisional Application Ser. No. 60/154,377 filed Sep. 15, 1999.
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Provisional Applications (1)
|
Number |
Date |
Country |
|
60/154377 |
Sep 1999 |
US |