Method of forming a flexible abrasive sheet article

US 8,545,583 B2
Filed: 01/05/2005
Issued: 10/01/2013
Est. Priority Date: 11/17/2000
Status: Active Grant

First Claim

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1. A method of forming a flexible abrasive sheet article having an array of abrasive coated raised island structures attached to a backing sheet, the method comprising:

pressing spherical abrasive beads while they are in contact with a flat plate or roll to position all of the beads into a non-solidified polymeric resin on raised island flat top surfaces to level top surfaces of individual abrasive beads into a monolayer of the spherical abrasive beads into a position within a common plane that is parallel to a bottom support surface of a backing sheet;

wherein the formed flexible abrasive sheet article has features of;

a) raised islands comprising a first structural material, the raised islands having the raised island flat top surfaces;

b) the raised island flat top surfaces supporting the monolayer of spherical abrasive beads supported in a polymeric resin;

c) the raised island structures having structural wall sides free of adhered spherical abrasive;

d) the raised island structures having a structural base, the structural base having a structure base area; and

e) recessed areas between structural bases of adjacent raised island structures are free of adhered, spherical abrasive beads.

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Abstract

Flexible abrasive sheet articles having precision thickness flat-topped raised island structures that are coated with a monolayer of equal sized abrasive agglomerate are described. Methods of producing high quality equal-sized spherical shaped composite abrasive agglomerate beads containing small diamond abrasive particles are described. Beads are produced by level-filling fine mesh screens or perforated sheets with a water based metal oxide slurry containing abrasive particles and then using a fluid jet to eject the abrasive slurry lumps from the individual screen cells into a dehydrating environment. Surface tension forces form the ejected liquid lumps into spheres that are solidified and then heated in a furnace to form ceramic beads. These porous ceramic abrasive beads can be bonded directly onto the flat planar surface of a flexible backing material or they can be bonded onto raised island surfaces to form rectangular or disk abrasive sheet articles. Abrasive articles having equal sized abrasive beads are particularly suited for lapping and raised island articles are suited for high speed lapping. Non-abrasive equal-sized beads can also be formed using this simple bead manufacturing process, which requires only a very low capital investment.

167 Citations

26 Claims

1. A method of forming a flexible abrasive sheet article having an array of abrasive coated raised island structures attached to a backing sheet, the method comprising:
- pressing spherical abrasive beads while they are in contact with a flat plate or roll to position all of the beads into a non-solidified polymeric resin on raised island flat top surfaces to level top surfaces of individual abrasive beads into a monolayer of the spherical abrasive beads into a position within a common plane that is parallel to a bottom support surface of a backing sheet;
  
  wherein the formed flexible abrasive sheet article has features of;
  
  a) raised islands comprising a first structural material, the raised islands having the raised island flat top surfaces;
  
  b) the raised island flat top surfaces supporting the monolayer of spherical abrasive beads supported in a polymeric resin;
  
  c) the raised island structures having structural wall sides free of adhered spherical abrasive;
  
  d) the raised island structures having a structural base, the structural base having a structure base area; and
  
  e) recessed areas between structural bases of adjacent raised island structures are free of adhered, spherical abrasive beads.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19)
- - 2. The method of claim 1 wherein the pressing positions spherical abrasive beads having an average diameter into the resin whereby a top surface of each of the individual beads is positioned within a deviation that is 20% of the average diameter of the abrasive beads from a common plane that is parallel to the bottom support surface of the backing sheet and intersects the median height of all spherical agglomerate abrasive beads.
  - 3. The method of claim 2 wherein individual abrasive particles are used as a substitute for the spherical agglomerate abrasive beads, the abrasive particles having top particle surfaces that are exposed from the resin and wherein the abrasive article forming method comprises contacting the top exposed surfaces of the article exposed abrasive particles with a flat plate or roll, pressing the contacted abrasive particles while they are in contact with the flat plate or roll to position all of the contacted exposed particles in the non-solidified polymeric resin on the article raised island flat top surfaces to level the top surfaces of the contacted individual abrasive particles into position within a common plane that is parallel to a bottom mounting surface of the backing sheet and the resin is partially or wholly solidified whereby the top surfaces of the contacted abrasive particles are positioned in the common plane and the all of the abrasive particles are supported by the resin.
  - 4. The method of claim 2 wherein the shape of the abrasive article is a rectangular sheet.
  - 5. The method of claim 2 wherein the abrasive article is a circular disk having an annular band of abrasive coated raised islands.
  - 6. The method of claim 2 wherein the abrasive article is an abrasive lapping article.
  - 7. The method of claim 2 wherein the resin is not solidified during the abrasive bead pressing action.
  - 8. The method of claim 2 wherein individual raised island structures that are located at the edge of the flat sheet article have structural base areas wherein the structural base area sizes of peripheral edge structures of the individual raised island structures are at least 80% of the average size of the structure base areas of all of the structures that are attached to the article backing sheet and the individual raised island structures that are located at the periphery of the backing sheet are positioned on the backing sheet whereby at least a portion of the island structure base of each of the islands located at the periphery extends completely to the edge of the backing sheet.
  - 9. The method of claim 8 where the abrasive article backing sheet periphery has a circular shape.
  - 10. The method of claim 8 where the abrasive article backing sheet has a serpentine or compound curved sheet edge line whereby at least a portion of the island structural base of each of the raised island structures adjacent the edge is adjacent to the serpentine or compound curved edge line of the backing sheet.
  - 11. The method of forming the flexible abrasive sheet article of claim 1 wherein in feature b) the flat top island surfaces comprises a monolayer of spherical abrasive agglomerate beads of abrasive particles encapsulated in a porous oxide matrix where the beads are supported in a liquid non-solidified polymeric resin wherein the beads have top bead surfaces that are exposed from the resin;
    - the backing sheet having a top raised island side and a sheet bottom article flat mounting surface side andthe method further comprises mounting the sheet article on a flat platen surface with the sheet article mounting side contacting the platen flat surface, contacting the top exposed surfaces of the article exposed beads with the flat plate or roll, pressing the contacted spherical beads with the flat plate or the roll while they are in contact with the flat plate or the roll to position all of the contacted exposed beads in the non-solidified polymeric resin on the article raised island flat top surfaces to level the top surfaces of the contacted individual abrasive beads into position within a common plane that is parallel to the bottom support surface of the backing sheet; and
      
      the non-solidified resin is thereafter partially or wholly solidified whereby the top surfaces of the contacted abrasive beads are positioned in the common plane and all of the abrasive beads are supported by the resin.
  - 12. The method of claim 11 wherein the pressing positions spherical abrasive beads having an average diameter into the resin whereby a top surface of each of the individual beads is positioned within a deviation that is 20% of the average diameter of the abrasive beads from a common plane that is parallel to the bottom support surface of the backing sheet.
  - 13. The method of claim 11 wherein individual abrasive particles are used as a substitute for the spherical agglomerate abrasive beads, the abrasive particles having top particle surfaces that are exposed from the resin and wherein the abrasive article forming method comprises contacting the top exposed surfaces of the article exposed abrasive particles with the flat plate or roll, pressing the contacted abrasive particles while they are in contact with the flat plate or roll to position all of the contacted exposed particles in the non-solidified polymeric resin on the article raised island flat top surfaces to level the top surfaces of the contacted individual abrasive particles into position within a common plane that is parallel to the bottom support surface of the backing sheet and the resin is partially or wholly solidified whereby the top surfaces of the contacted abrasive particles are positioned in the common plane and the all of the abrasive particles are supported by the resin.
  - 14. The method of claim 11 wherein the abrasive article is a a circular disk having an annular band of abrasive coated raised islands.
  - 15. The method of claim 11 wherein the abrasive article is an abrasive lapping article.
  - 16. The method of claim 11 wherein the resin is not solidified during the abrasive bead pressing action.
  - 17. The method of claim 11 wherein individual raised island structures that are located at the edge of the sheet article have structural base areas wherein the structural base area sizes of peripheral edge structures of the individual raised island structures are at least 80% of the average size of the structure base areas of all of the structures that are attached to the article backing sheet and the individual raised island structures that are located at the periphery of the backing sheet are positioned on the backing sheet whereby at least a portion of the island structure base of each of the islands located at the periphery extends completely to the edge of the backing sheet.
  - 18. The method of claim 17 where the abrasive article backing sheet periphery has a circular shape.
  - 19. The method claim 17 where the abrasive article backing sheet has a serpentine or compound curved sheet edge line whereby at least a portion of the island structural base of each of the raised island structures adjacent the edge is adjacent to the serpentine or compound curved edge line of the backing sheet.

20. A method of forming a flexible abrasive sheet article having an array of abrasive coated raised island structures attached to a rectangular backing sheet comprising:
- a) pressing spherical beads while they are in contact with a flat plate or roll to position all of the beads into a polymeric resin on raised island flat top surfaces to level top surfaces of individual abrasive beads into position within a common plane that is parallel to a bottom surface of the rectangular backing sheet to form a monolayer of the individual abrasive beads,wherein the flat top island surfaces comprise a monolayer of spherical abrasive agglomerate beads of abrasive particles encapsulated in a porous oxide matrix where the beads are supported in a liquid non-solidified polymeric resin wherein the beads have top bead surfaces that are exposed from the resin;
  
  the rectangular backing sheet having a top raised island side and a sheet bottom article flat mounting surface side; and
  
  wherein the method further comprises b) in a) mounting the rectangular backing sheet with raised island structures thereon on a flat platen surface with the sheet article bottom mounting side contacting the platen flat surface, contacting the top exposed surfaces of the article exposed beads with the flat plate or roll, pressing the contacted spherical beads with the flat plate or the roll while they are in contact with the flat plate or the roll to position all of the contacted exposed beads in the non-solidified polymeric resin on the article raised island flat top surfaces to level the top surfaces of the contacted individual abrasive beads into position within a common plane that is parallel to the bottom mounting surface side of the article backing sheet; and
  
  c) then the non-solidified polymeric resin is partially or wholly solidified whereby the top surfaces of the contacted abrasive beads are positioned in the common plane and all of the abrasive beads are supported by the resin, and wherein the shape of the abrasive article is a rectangular sheet.

21. A method of forming a flexible abrasive sheet article having an array of abrasive coated raised island structures attached to a backing sheet, comprising steps:
- a) pressing spherical beads while they are in contact with a flat plate or roll to position all of the beads into a polymeric resin on raised island flat top surfaces to level top surfaces of individual abrasive beads into position within a common plane that is parallel to a bottom surface of the backing sheet to form a monolayer of the individual abrasive beads,wherein the flat top island surfaces comprise a monolayer of spherical abrasive agglomerate beads of abrasive particles encapsulated in a porous oxide matrix where the spherical abrasive agglomerate beads are supported in the liquid non-solidified polymeric resin wherein the beads have top bead surfaces that are exposed from the resin;
  
  the backing sheet having a top raised island side and a sheet bottom article flat mounting surface side; and
  
  wherein the method further comprises b) in a) mounting the backing sheet with raised island structures thereon on a flat platen surface with the sheet article mounting surface side contacting the platen flat surface, contacting the top exposed surfaces of the article exposed beads with a flat plate or roll, pressing the contacted spherical beads with the flat plate or the roll while they are in contact with the flat plate or the roll to position all of the contacted exposed beads in the non-solidified polymeric resin on the article raised island flat top surfaces to level the top surfaces of the contacted individual abrasive beads into position within a common plane that is parallel to the bottom mounting surface side of the article backing sheet; and
  
  c) then the resin is partially or wholly solidified whereby the top surfaces of the contacted abrasive beads are positioned in the common plane and all of the abrasive beads are supported by the resin, and wherein the shape of the abrasive article is a circular abrasive disk.

22. A method of forming a flexible abrasive sheet article having an array of abrasive coated raised island structures attached to a backing sheet, the method comprising:
- a) pressing spherical abrasive agglomerate beads while they are in contact with a flat plate or roll to position all spherical abrasive agglomerate beads into a liquid non-solidified polymeric resin on raised island flat top surfaces to level top surfaces of the individual abrasive beads into position within a common plane that is parallel to a bottom surface of the backing sheet, forming a monolayer of the spherical beads, thereby forming the flexible abrasive sheet article having features of;
  
  islands comprising a first structural material, the islands having raised island flat top surfaces;
  
  the flat top island surfaces comprising a monolayer of spherical abrasive beads supported in the liquid non-solidified polymeric resin;
  
  the raised island structures having structural wall sides;
  
  the raised island structures having a structural base, the structural base having a structure base area; and
  
  recessed areas between structural bases of adjacent raised island structures;
  
  wherein the spherical abrasive agglomerate beads comprise abrasive particles encapsulated in a porous oxide matrix in which the beads are supported in the liquid non-solidified polymeric resin such that the beads have top bead surfaces that are exposed from the resin;
  
  the backing sheet having a top raised island side and a sheet bottom article flat mounting surface side; and
  
  wherein the method further comprises b) mounting the backing sheet having raised island structures with flat top surfaces on a flat platen surface with the sheet article mounting side contacting the platen flat surface, contacting the top exposed surfaces of the article exposed beads with the flat plate or roll, pressing the contacted spherical beads with the flat plate or the roll while they are in contact with the flat plate or the roll to position all of the contacted exposed beads in the non-solidified polymeric resin on the article raised island flat top surfaces to level the top surfaces of the contacted individual abrasive beads into position within a common plane that is parallel to the bottom mounting surface of the article backing sheet; and
  
  c) the resin is partially or wholly solidified whereby the top surfaces of the contacted abrasive beads are positioned in the common plane and all of the abrasive beads are supported by the resin, and wherein the resin is partially solidified during the abrasive bead pressing.
- View Dependent Claims (23, 24, 25, 26)
- - 23. The method of claim 22 where the abrasive article backing sheet periphery has a rectangular shape.
  - 24. The method of claim 22 wherein the shape of the abrasive article is a circular abrasive disk.
  - 25. The method of claim 22 wherein the resin is partially solidified during the abrasive bead pressing action.
  - 26. The method of claim 22 wherein individual raised island structures that are located at the edge of the sheet article have structural base areas wherein the structural base area sizes of peripheral edge structures of the individual raised island structures are at least 80% of the average size of the structure base areas'"'"' of all of the structures that are attached to the article backing sheet and the individual raised island structures that are located at the periphery of the backing sheet are positioned on the backing sheet whereby at least a portion of the island structure base of each of the islands located at the periphery extends completely to the edge of the backing sheet and where the abrasive article backing sheet periphery has a rectangular shape.

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Current Assignee
Wayne O. Duescher
Original Assignee
Wayne O. Duescher
Inventors
Duescher, Wayne O.
Primary Examiner(s)
Eley, Timothy V

Application Number

US11/029,761
Publication Number

US 20050118939A1
Time in Patent Office

3,191 Days
Field of Search

512/93, 512/95, 513/07, 513/08, 513/09, 512/98, 451/527, 451/528, 451/533, 451/539, 451/548, 451/550
US Class Current

51/298
CPC Class Codes

B24D 11/00   Constructional features of ...

B24D 11/001   Manufacture of flexible abr...

B24D 18/00   Manufacture of grinding too...

B24D 2203/00   Tool surfaces formed with a...

C09K 3/1436   Composite particles, e.g. c...

Method of forming a flexible abrasive sheet article

First Claim

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Abstract

167 Citations

26 Claims

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Method of forming a flexible abrasive sheet article

First Claim

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Abstract

167 Citations

26 Claims

Specification

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Solutions

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