Polishing pad and method for manufacturing the polishing pad

Inactive Publication Date: 2011-07-14
KURARAY CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

[0072]Preferably, the polymeric elastomer is present inside ultrafine fiber bundles of from 5 to 70 ultrafine fibers having an average fineness of 0.01 to 0.8 dtex which make up the ultrafine fiber-entangled body. The ultrafine fibers converge as bundles under the effect of the polymeric elastomer present inside the ultrafine fiber bundles. Owing to the convergence of the ultrafine fibers, a part or all of the interior of the fiber bundle converges as a bundle, in addition to which the bundle of ultrafine fibers is restrained. The convergence of the ultrafine fibers as a bundle, together with the restraint of the fiber bundle, increases the stiffness of the polishing pad, which is advantageous from the standpoint of enhancing the planarizing performance, the polishing uniformity and the stability over time.
[0073]A volumetric ratio of a portion excluding voids in the polishing pad (also referred to below as the filling ratio of the polishing pad) is preferably in a range of from 40 to 95 wt %. That is, the presence of the voids such that the void volume is in a range of from 5 to 60% is preferable both for a suitable stiffness of the polishing pad and for slurry retention by the polishing pad.
[0074]In this case, the void volume in the polymeric elastomer-impregnated polishing pad of 50% or more is desirable because slurry retention, suitable stiffness and moreover cushionability are concurrently achieved, which is excellent for polishing bare silicon wafers. An upper limit in this case of 70% or less is desirable because this results in a good polishing rate and flatness in rough polishing such as bare silicon wafer polishing.
[0075]From the standpoint of enhancing slurry retention, it is m

Problems solved by technology

Because such polishing pads have a relatively high stiffness, convex parts on the substrate being polished tend to incur selective loading during polishing, resulting in a relative high polishing rate.
However, when clumped abrasive grains are present on the polishing surface, because such clumped abrasive grains also selectively incur loading, scratches are readily formed on the surface being polished.
In particular, as described in Non-Patent Document 1, when a substrate having copper wiring that is scratched easily or a material with a low dielectric constant and with weak interfacial adhesion is polished, there is a particular tendency for scratches and interfacial separation to occur.
Moreover, in a cast-foam-molding, because it is difficult to uniformly foam a polymeric elastomer, variability tends to arise in the flatness of the substrate being polished and in the polishing rate during the polishing operation.
Moreover, in a polishing pad having closed cells, the voids that originate from the closed cells become clogged with abrasive particles and abrasion debris.
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Method used

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Examples

Experimental program
Comparison scheme
Effect test

example 1

[0165]Islands-in-the-sea type composite fibers were formed by discharging a water-soluble thermoplastic polyvinyl alcohol resin (abbreviated below as “PVA resin”) and an isophthalic acid-modified polyethylene terephthalate having a degree of modification of 6 mol % (having a water absorption ratio when saturated with water at 50° C. of 1 mass % and a glass transition temperature of 77° C.; abbreviated below as “modified PET”) in a mass ratio of 20:80 from a spinneret for melt spinning composite fibers. The spinneret produced composite fibers having 50 islands / fiber, and the spinneret temperature was 260° C. The ejector pressure was adjusted so as to give a spinning speed of 4,000 m / min, and filaments having an average fineness of 2.0 dtex was collected on a net, thereby giving a spunbonded sheet (filament web) with a basis weight of 40 g / m2.

[0166]Twelve of the resulting spunbonded sheets were superimposed in a crosslapped arrangement to produce a stack of webs having a total basis w...

example 2

[0173]The same procedure as in Example 1 was carried out up to the production of the entangled web sheet. After being hot-pressed without being impregnated with polyurethane elastomer A, the entangled web sheet was then immersed for 10 minutes in 95° C. hot water and the PVA resin was dissolved and removed, thereby giving an ultrafine fiber-entangled body composed of bundles of ultrafine fibers. The resulting ultrafine fiber-entangled body was then impregnated with an aqueous dispersion of polyurethane elastomer B (solids concentration, 40 mass %). At this time, the amount of adherent solids of the aqueous dispersion was 20 mass % with respect to the mass of the ultrafine fiber-entangled body. Next, the ultrafine fiber-entangled body impregnated with the aqueous dispersion was coagulated at 90° C. and 50% RH. This was followed by drying treatment at 140° C., then hot pressing at 140° C., thereby giving a polishing pad precursor. The resulting polishing pad precursor was post-treated...

example 3

[0174]Aside from not carrying out the hot pressing treatment before the impregnation of polyurethane elastomer A and also not carrying the hot pressing treatment after impregnation and drying, polishing pads were obtained in the same way as in Example 1.

[0175]The polishing pad precursor thus obtained had a basis weight of 1,360 g / m2, an apparent density of 0.62 g / cm3 and a thickness of 2.2 mm, in addition to which the mass ratio of the ultrafine fiber-entangled body to the polyurethane elastomer was 70 / 30. In the resulting polishing pad precursor, all 50 fibers of the ultrafine fibers making up each fiber bundle converged as a bundle. Moreover, the polymeric elastomer was present at the interior of the ultrafine fiber bundles, and restrained the bundles. Polishing pads obtained by carrying out flattening and groove-forming treatment in the same way as in Example 1 were evaluated by the below-described methods. The results are shown in Table 1.

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Abstract

A polishing pad is disclosed which is less likely to cause scratches, and has an excellent planarization performance and polishing stability. In one aspect, the invention provides a polishing pad comprising an ultrafine fiber-entangled body formed of ultrafine fibers having an average fineness of 0.01 to 0.8 dtex, and a polymeric elastomer. The polymeric elastomer has a glass transition temperature of −10° C. or below, storage moduli at 23° C. and 50° C. of 90 to 900 MPa, and a water absorption ratio, when saturated with water at 50° C., of 0.2 to 5 mass %.

Description

TECHNICAL FIELD[0001]The present invention relates to a polishing pad, and more particularly to a polishing pad for polishing various devices, substrates and other products on which planarization or mirror polishing are carried out, examples of which include semiconductor substrates, semiconductor devices, compound semiconductor devices, compound semiconductor substrates, compound semiconductor products, LED substrates, LED products, bare silicon wafers, silicon wafers, hard disk substrates, glass substrates, glass products, metal substrates, metal products, plastic substrates, plastic products, ceramic substrates and ceramic products, and to a method for manufacturing the polishing pad.BACKGROUND ART[0002]In recent years, with the increasing levels of integration and multilayer interconnection in integrated circuits, there has existed a need for high-precision flatness on the semiconductor wafers where the integrated circuits are formed.[0003]One known process for polishing semicon...

Claims

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Application Information

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IPC IPC(8): B24D11/00B24D18/00B24D3/00B24B37/24D04H3/016D04H3/10
CPCB24B37/24D04H3/10D04H3/016
Inventor NAKAYAMA, KIMIOTAKAOKA, NOBUOKATO, MITSURUKIKUCHII, HIROFUMI
Owner KURARAY CO LTD
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