1. Field of the Invention
The present invention relates to a sheet and a method for making the same, and particularly to a sheet having discontinuous adhesion points and a method for making the same.
2. Description of the Related Art
Polishing generally refers to abrasion control of a rough surface in a chemical mechanical polishing (CMP) process. The polishing is performed by uniformly dispersing a slurry with fine particles on an upper surface of a polishing pad, and meanwhile repeatedly and regularly grinding a polishing workpiece held against the polishing pad. The polishing workpiece is an object such as a semiconductor, a storage media substrate, an integrated circuit (IC), an LCD flat glass, an optical glass, or a photoelectric panel. During the polishing process, a sheet is required to adsorb and fix the polishing workpiece, and thus the quality of the sheet may directly influence the polishing effect of the polishing workpiece.
The polishing equipment 1 operates as follows. First, the polishing workpiece 13 is placed on the sheet 12, and adsorbed by the sheet 12. Next, the polishing plate 14 and the pressure plate 11 rotate in opposite directions, and meanwhile the pressure plate 11 moves downward, such that the polishing pad 15 is in contact with a surface of the polishing workpiece 13. The slurry 16 is continuously supplied and the polishing pad 15 is employed to perform polishing on the polishing workpiece 13.
A disadvantage of the conventional sheet 12 is as follows. As the amount of the paste used to form the adhesion layer 123 may influence the adsorption force of the sheet 12, in the conventional sheet 12, the paste of the adhesion layer 123 completely fills the space between the adsorption layer 122 and the buffer layer 121, and thus the adsorption force of the sheet 12 is decreased. Consequently, water leakage may easily occur around the polishing workpiece 13 and the sheet 12 during the polishing process, so that the service life of the sheet 12 is shortened.
Therefore, it is necessary to provide a sheet having discontinuous adhesion points and a method for making the same to solve the above problems.
The present invention is directed to a sheet having discontinuous adhesion points. The sheet includes a buffer layer, an adsorption layer, and an adhesion layer. The buffer layer is made of a high polymer and has a plurality of communicating pores. The adsorption layer is made of a high polymer and is disposed on the buffer layer to adsorb a workpiece. The adhesion layer is disposed between the buffer layer and the adsorption layer. The adhesion layer has a plurality of adhesion points to bind the buffer layer and the adsorption layer. The adhesion points are discontinuous and have gaps in between.
The present invention is further directed to a method for making a sheet. The method includes the following steps: (a) providing a buffer layer made of a high polymer and has a plurality of communicating pores; (b) providing an adsorption layer made of a high polymer; (c) forming an is adhesion layer on the buffer layer, in which the adhesion layer includes a plurality of adhesion points, and the adhesion points are discontinuous and have gaps in between; and (d) binding the adsorption layer with the buffer layer to form a sheet, in which the buffer layer and the adsorption layer are bound together through the adhesion points, and the adhesion points are discontinuous and have gaps in between.
In the present invention, a plurality of discontinuous adhesion points is provided between the buffer layer and the adsorption layer. Consequently, when the sheet is subjected to a perpendicular force, the buffer layer and the adsorption layer are pressed. Meanwhile, air between the buffer layer and the adsorption layer can not only be vented out in a perpendicular direction, but also vented out in a horizontal direction, thus resulting in a suction effect and increasing the adsorption force.
The polishing equipment 3 operates as follows. First, the polishing workpiece 33 is placed onto the sheet 32, and adsorbed by the sheet 32. Next, the polishing plate 34 and the pressure plate 31 rotate in opposite directions, and meanwhile the pressure plate 31 moves downward, such that the polishing pad 35 is in contact with a surface of the polishing workpiece 33. The slurry 36 is continuously supplied and the polishing pad 35 is employed to perform polishing on the polishing workpiece 33.
The adsorption layer 322 is made of a high polymer, such as PU resin, PVC resin, PS resin, PE resin, PA resin, PP resin, or EVA resin. The adsorption layer 322 is disposed on the buffer layer 321 to adsorb the polishing workpiece 33. The adsorption layer 322 is different from the buffer layer 321. Preferably, the buffer layer 321 has a compression ratio greater than that of the adsorption layer 322, and the buffer layer 321 has a void content higher than that of the adsorption layer 322.
The adhesion layer 323 is disposed between the buffer layer 321 and the adsorption layer 322. The adhesion layer 323 is a paste layer made of pressure sensitive adhesives (PSA), moisture-cured PU resin, one-component PU resin or two-component PU resin. The adhesion layer 323 has a plurality of adhesion points 3231 to bind the buffer layer 321 and the adsorption layer 322 together. The adhesion points 3231 are discontinuous and have gaps in between. That is, the adhesion layer 323 is not completely filled between the buffer layer 321 and the adsorption layer 322. The adhesion points 3231 are regularly or irregularly distributed. The gaps between the adhesion points 3231 are of the same size or different sizes. Preferably, the gaps between the adhesion points 3231 are of the same size. The sheet 32 has an adsorption force greater than 2.0 kg/12.25 cm2.
Next, in Step S502, an adsorption layer 322 is provided. The adsorption layer 322 is made of a high polymer. A method for making the adsorption layer 322 is as follows. First, a second resin layer is wet-coated onto a second support (for example, a release cloth). The second resin layer is made of PU resin, PVC resin, PS resin, PE resin, PA resin, PP resin, or EVA resin. Next, the second resin layer is solidified. Then, the second resin layer is washed. Finally, the second resin layer is dried to form the adsorption layer 322.
Afterward, in Step S503, an adhesion layer 323 is formed on the buffer layer 321. The adhesion layer 323 includes a plurality of adhesion points 3231. The adhesion points 3231 are discontinuous and have gaps in between. The adhesion layer 323 is a paste layer made of PSA, moisture-cured PU resin, one-component PU resin, or two-component PU resin. The adhesion layer 323 is not completely coated onto the buffer layer 321. Instead, a plurality of adhesion points 3231 is formed on the buffer layer 321 by using an adhesion tool such as a print wheel or a transcription tool. The adhesion points 3231 are regularly or irregularly distributed. Preferably, the gaps between the adhesion points 3231 are of the same size. The adhesion points 3231 may be in the form of dots, circles, ellipses, irregular shapes, triangles, quadrilaterals (as shown in the schematic enlarged top view of
Finally, in Step S504, the adsorption layer 322 is adhered onto the buffer layer 321. Then, a sheet 32 is formed after the adsorption layer 322 is cured by one-day standing. In the sheet 32, the buffer layer 321 and the adsorption layer 322 are adhered through the adhesion points 3231. The adhesion points 3231 are discontinuous and have gaps in between. That is, after the adhering process in Step S504, the adhesion points 3231 still substantially keep the shape and distribution in Step S503, instead of completely filling the space between the buffer layer 321 and the adsorption layer 322.
The present invention is further illustrated in detail below with an example. However, the present invention is not limited to the content of this example.
Example:
Firstly, a first support is provided as a coating substrate. The first support is a release cloth. A coating material is prepared by uniformly mixing 19.9 wt % of PU resin for coating, 6.6 wt % of pigment, 2.5 wt % of interfacial agent, and 71 wt % of dimethylformamide (DMF) solvent. Next, the coating material is coated onto the first support to form a first resin layer. Then, the first resin layer is solidified. Exchange solidification is performed on the first resin layer with the DMF at a concentration of 6% to 15% in a solidification bath. Afterward, the first resin layer is washed at a temperature of 40 to 80° C. Finally, the first resin layer is dried at 60 to 150° C. to form a communicating porous buffer layer.
Next, a second support is provided as a coating substrate. The second support is a release cloth. A coating material is prepared by uniformly mixing 37.7 wt % of PU resin for coating, 1.1 wt % of pigment, 23.5 wt % of interfacial agent, and 37.7 wt % of DMF solvent. Then, the coating material is coated onto the second support to form a second resin layer. The second resin layer is solidified. Exchange solidification is performed on the second resin layer with the DMF at a concentration of 6 to 15% in the solidification bath. Afterward, the second resin layer is washed at a temperature of 70° C. Finally, the second resin layer is dried at 130° C. to form an adsorption layer.
Thereafter, gravure printing is performed on the moisture-cured PU resin to form a plurality of adhesion points on the buffer layer. The adhesion points are discontinuous and have gaps in between. The adhesion points are regularly distributed, and are in the form of quadrilaterals (as shown in the schematic enlarged top view of
Finally, the adsorption layer is adhered onto the buffer layer, and a sheet is formed after the adsorption layer is cured by one-day standing. The sheet has an adsorption force of 3.0 to 3.5 kg/12.25 cm2, a hardness of 16 Shore A, a compression ratio of 51.00%, and a compression-recovery ratio of 96.08%. And a conventional sheet usually has an adsorption force of about 1.5 to 2.0 kg/12.25 cm2.
In the present invention, taking
While several embodiments of the present invention have been illustrated and described, various modifications and improvements can be made by those skilled in the art. The embodiments of the present invention are therefore described in an illustrative but not restrictive sense. It is intended that the present invention should not be limited to the particular forms as illustrated, and that all modifications which maintain the spirit and scope of the present invention are within the scope defined in the appended claims.
Number | Date | Country | Kind |
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098107478 | Mar 2009 | TW | national |