WO1993002837A1 - Revetement d'abrasifs egalise au moyen d'un outil coupant a pointes multiples - Google Patents

Revetement d'abrasifs egalise au moyen d'un outil coupant a pointes multiples Download PDF

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Publication number
WO1993002837A1
WO1993002837A1 PCT/US1992/005827 US9205827W WO9302837A1 WO 1993002837 A1 WO1993002837 A1 WO 1993002837A1 US 9205827 W US9205827 W US 9205827W WO 9302837 A1 WO9302837 A1 WO 9302837A1
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WO
WIPO (PCT)
Prior art keywords
abrasive
cutting
coated
endless
dressing
Prior art date
Application number
PCT/US1992/005827
Other languages
English (en)
Inventor
Arthur P. Luedeke
Robert P. Miller
Original Assignee
Minnesota Mining And Manufacturing Company
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Minnesota Mining And Manufacturing Company filed Critical Minnesota Mining And Manufacturing Company
Priority to EP92916764A priority Critical patent/EP0596999B1/fr
Priority to JP5503576A priority patent/JPH06509519A/ja
Priority to DE69211137T priority patent/DE69211137T2/de
Publication of WO1993002837A1 publication Critical patent/WO1993002837A1/fr

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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B24GRINDING; POLISHING
    • B24BMACHINES, DEVICES, OR PROCESSES FOR GRINDING OR POLISHING; DRESSING OR CONDITIONING OF ABRADING SURFACES; FEEDING OF GRINDING, POLISHING, OR LAPPING AGENTS
    • B24B53/00Devices or means for dressing or conditioning abrasive surfaces
    • B24B53/10Devices or means for dressing or conditioning abrasive surfaces of travelling flexible backings coated with abrasives; Cleaning of abrasive belts
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B24GRINDING; POLISHING
    • B24DTOOLS FOR GRINDING, BUFFING OR SHARPENING
    • B24D3/00Physical features of abrasive bodies, or sheets, e.g. abrasive surfaces of special nature; Abrasive bodies or sheets characterised by their constituents

Definitions

  • the present invention relates generally to continuous coated abrasive articles of the type having flexible backings with front and rear surfaces and abrasive particles including abrasive grains attached along their front surfaces.
  • Abrasive agglomerates may include a plurality of abrasive grains bonded together by a phenolic resin (e.g. a phenolic based make and size coat) or any other suitable binder to form a shaped mass, and the abrasive grains may be constructed from ceramic aluminum oxide, commercially available from the Minnesota Mining and Manufacturing Company (3M) of St. Paul, Minnesota under the trade designation grade 120 "Cubitron" ceramic aluminum oxide abrasive grains, and may have a particle size of approximately 116 micrometers.
  • abrasive agglomerate is defined as a plurality of abrasive grains bonded together by a binder.
  • Figures 1 and 2 illustrate a coated abrasive belt 10 (e.g., the abrasive belt sold by Minnesota Mining and Manufacturing, St. Paul Minnesota, under the trade designation 3M "Multicut” T.M. Resin Bond cloth coated abrasive belts) after it is constructed but before it is used to abrade a workpiece.
  • a coated abrasive belt 10 e.g., the abrasive belt sold by Minnesota Mining and Manufacturing, St. Paul Minnesota, under the trade designation 3M "Multicut” T.M. Resin Bond cloth coated abrasive belts
  • Such an abrasive belt may be used, for example, in conjunction with the camshaft grinder disclosed in U.S. Patent No. 4,833,834 to grind pieces of metal stock having generally cylindrical portions into camshafts.
  • the coated abrasive belt 10 includes a flexible backing 11 (e.g. cloth or polymeric film, vulcanized fiber, paper, combinations thereof and treated versions thereof) with front and rear or “back” surfaces, and a mound or mountain-shaped abrasive coating 12 which includes abrasive agglomerates attached along the front surface of the backing 11.
  • the mountain-shaped surface of the abrasive belt includes numerous peaks and valleys. The "height" of a peak is defined in this specification as the shortest distance between the back surface of the backing and the top of the peak along the surface of the abrasive belt.
  • the endless abrasive belts used with the camshaft grinder disclosed in U.S. Patent 4,833,834 should produce a consistent finish on the surface of camshafts.
  • a coated abrasive belt such as the belt shown in Figures 1 and 2 may not leave the desirable finish on the workpiece until the mountain shaped abrasive is sufficiently worn.
  • Another problem associated with the initial uses of the prior art endless abrasive belts on a camshaft grinder such as the camshaft grinder shown in U.S. Patent 4,833,834 is that the caliper or "thickness" of the belt initially changes rapidly as the mountain-shaped portions are broken and worn away. The camshaft grinder is required to continually adjust for this rapid change of belt caliper until the wear characteristics of the belt stabilizes.
  • abrasive belts encounter problems even after their "start up" or initial use. For example, when an abrasive belt is used to abrade a metal workpiece (e.g. a camshaft) the metal pieces which are abraded from the workpiece tend to become welded over the surface of the abrasive. This prematurely ends the useful life of a belt.
  • a metal workpiece e.g. a camshaft
  • Some existing endless coated abrasive belts encounter problems due to their lack of uniform thickness.
  • Known butt splices are used to construct some endless abrasive belts. In a butt splice, two edges of the backing of an abrasive sheet are abutted, and thereafter joined together with a reinforcing strip which is bonded to the underside of the abrasive belt.
  • Coated abrasive belts which incorporate butt splices may have a thickness which is greater at the splice than elsewhere along the belt.
  • the height of the peaks of the agglomerate at the splice area will generally tend to be greater than the heights of the peaks along the remainder of the endless belt due to the presence of the reinforcing strip. This additional thickness or "height" in the splice area tends to leave “splice marks" or undesirably deep "wild” scratches in the abraded workpiece.
  • Another known method of constructing an endless belt is known as a "lap splice" wherein two ends of an abrasive belt sheet are overlapped to form an endless abrasive belt. The thickness of the belt at the joint may be greater than the thickness of the belt elsewhere due to the overlapped ends.
  • the present invention provides a coated abrasive comprising a flexible backing with front and rear or “back" surfaces, a generally uniform width, and mounds of abrasive particles including abrasive grains attached along the front surface. Initially, the mounds of abrasive particles project different distances in a predetermined range from the front surface of the backing.
  • a multiple point cutting means having a width at least substantially equal to the width of the backing and having a cutting surface constructed from a material harder than the abrasive grains is used to cut the mounds of the abrasive particles to form generally coplanar surfaces generally parallel to the back surface.
  • the mounds have heights measured from the back surface of the flexible backing
  • the coplanar surfaces have heights measured from the back surface of the flexible backing such that the heights of the mounds before cutting and the height of the coplanar surfaces after cutting are described by the equation:
  • X is between 1.1 and 2;
  • PI the height of the tallest mound of the abrasive particles before cutting
  • P2 the height of the tallest co-planar surface of the abrasive particles after cutting by the cutting means.
  • X is equal to 1.35.
  • the present invention may be characterized as a method of quickly and conveniently "dressing" a coated abrasive article that may be used in conjunction with automatic dressing mechanisms, which provides a more consistent uniform finish, which significantly reduces the tendency of the resultant coated abrasive article to create wild scratches or an otherwise deficient finish on a workpiece during the initial use of the abrasive article, and which provides a coated abrasive with more predictable wear characteristics and a more uniform caliper or thickness.
  • the coated abrasive of the present invention may be prepared by the process comprising the steps of: (1) providing a flexible backing with front and rear surfaces and having a generally uniform width, and attaching discrete mounds of abrasive particles including abrasive grains along the front surface, the mounds of abrasive particles projecting different distances in a predetermined range measured from the rear or back surface of the backing, (2) providing a multiple point cutting means having a width at least substantially equal to the width of the backing and having cutting surfaces constructed from a material harder than the abrasive grains, and then (3) cutting the mounds of the abrasive particles projecting more than a predetermined distance within the range with the cutting means to form generally coplanar surfaces generally parallel to the back surface.
  • the cutting means may have surfaces constructed from diamonds, boron nitride or any other suitable cutting material so long as the material is harder than the abrasive grains.
  • the present invention may be described as a method of grinding workpieces using endless coated abrasive belts each comprising a flexible backing with front and rear surfaces and mounds of abrasive particles including abrasive grains attached along the front surface.
  • the endless coated abrasive belts may be mounted on a means for driving the endless abrasive belt, such as the camshaft grinder described in U.S. Patent No. 4,833,834.
  • a multiple point cutting means having cutting surfaces harder than the abrasive grains is provided.
  • each of the coated abrasive belts may be simultaneously dressed while they are mounted on the camshaft grinder described in U.S. Patent No. 4,833,834 and before they are used to grind a workpiece.
  • Figure 1 is a cross-sectional photographic view of a prior art coated abrasive before it is used to abrade a workpiece;
  • Figure 2 is a photograph at a magnification of twenty-five (25) of another portion of the coated abrasive of Figure 1;
  • Figure 3 is a cross-sectional photographic view of coated abrasive after it has been dressed by the method according to the present invention
  • Figure 4 is a photograph at a magnification of twenty-five (25) of another portion of the abrasive of Figure 3;
  • Figure 5 is a cross-sectional photographic view of a coated abrasive belt after it has been used to grind 19 camshafts on a camshaft grinder;
  • Figure 6 is a photograph at a magnification of forty (40) of another portion of the coated abrasive belt shown in Figure 5;
  • Figure 7 is a schematic illustration of a first embodiment of the method of making or "dressing" a coated abrasive according to the present invention.
  • Figure 8 is a perspective view of one embodiment of cutting means according to the present invention
  • Figure 9 is a top view of a means for simultaneously driving a plurality of belts past a dressing/grinding station and the cutting means of Figure 8, which illustrates a technique for simultaneously dressing a plurality of abrasive belts
  • Figure 10 is a schematic illustration of a second embodiment of the method of making or "dressing" a coated abrasive according to the present invention
  • Figure 11 is a schematic illustration of a third embodiment of the method of making or "dressing" a coated abrasive according to the present invention
  • Figure 12 is a cross-sectional photographic view of a coated abrasive such as the coated abrasive of Figure 5 after it has been dressed subsequent to the grinding of (19) camshafts; and
  • Figure 13 is a photograph at a magnification of forty (40) of another portion of the coated abrasive belt of Figure 12.
  • the coated abrasive 20 comprises a flexible backing 21 with front and rear surfaces, and mounds of abrasive agglomerates 22 including abrasive grains 23 (e.g. ceramic aluminum oxide, commercially available from the Minnesota Mining and Manufacturing Company (3M) of St. Paul, Minnesota under the trade designation grade 120 "Cubitron" ceramic aluminum oxide abrasive grains with a particle size of approximately 116 micrometers) attached along the front surface (e.g. by phenolic based make and size coats) .
  • the mounds of abrasive agglomerates 22 initially project different distances in a predetermined range measured from the rear or back surface of the backing 21.
  • the coated abrasive 10 shown in Figures 1 and 2 may be selected.
  • the coated abrasive 10 may be constructed using the abrasive agglomerates described in Bloecher et al. U.S. Patent number 4,799,939 which may contain abrasive grains made for example according to the teachings in Schwabel U.S. Patent Number 4,744,802.
  • FIG. 7 and 9 there is shown a schematic illustration of a first embodiment of the method of making or "dressing" a coated abrasive according to the present invention generally designated by the reference number 40.
  • the coated abrasives shown in Figure 7 are endless coated abrasive belts 41 which may be formed by utilizing a lap or butt splice. As mentioned above, endless belts having lap or butt splices may be thicker in some portions than others and may tend to leave undesirable marks or wild scratches in the workpiece.
  • Figures 7 and 9 illustrate the prior art coated abrasives shown in Figures 1 and 2 after they are formed into the endless belts 41 and after they are mounted on a means for driving the endless abrasive belt 41, such as the camshaft grinder described in U.S. Patent No. 4,833,834 schematically illustrated as reference character 42.
  • Figure 8 illustrates a multiple point cutting means which is preferably constructed from a generally cylindrical piece of metal stock 50 which is similar to the pieces of metal stock which are ultimately ground into the asymmetrical cross-sections of the camshafts.
  • the use of a multiple point cutting means substantially reduces the time required to dress a coated abrasive when compared with the time required to dress a coated abrasive with a single point cutting tool.
  • the cutting means is used to cut material from the mountain-shaped surfaces ( Figure 1) to form coplanar surfaces 25.
  • the metal stock 50 has cutting surfaces 53 harder than the abrasive grains 23 attached thereto on surfaces which are generally spaced the same as the spacings of the lobes on the camshafts.
  • the cutting means may be continuously coated with cutting surfaces 53.
  • the cutting surfaces 53 may be attached to the periphery of the metal stock by any known method, such as but not limited to flame spraying or plating.
  • the cutting means may comprise a piece of metal stock 50 having generally cylindrical periphery portions and a metal binder coated (e.g. electroplated or brazed) to selected portions of its generally cylindrical periphery and with cutting surfaces 53 (e.g. diamonds or cubic boron nitride) applied to the metal binder.
  • Another method of making a suitable cutting means comprises the steps of providing a generally cylindrical piece of metal stock and adhesively applying a strip of "DIAPAD" T.M. abrasive (commercially available from Minnesota Mining and Manufacturing, 3M, St.
  • the cutting means may be constructed by laminating (e.g. adhesively) or plating a coated abrasive containing the cutting surfaces 33 harder than the abrasive grain to the cylindrical piece of metal stock 30.
  • U.S. Patent Gorsuch 4,256,467 discloses another method of making a cutting means for use in the method of the present invention by electroplating a metal binder and abrasive grains to a mesh material.
  • the mounds or mountain-shaped portions have heights measured from the back surface of the flexible backing 21, and the coplanar surfaces 25 have heights also measured from the back surface of the flexible backing such that the heights of the mounds before cutting (e.g. 12 of Figure 1) and the height of the coplanar surfaces after cutting are described by the equation:
  • PI the height of the tallest mound or mountain-shaped portion of the abrasive particles before cutting
  • P2 the height of the tallest co-planar surface of the abrasive particles after cutting by the cutting means.
  • X is preferably within the range of between 1.1 and 2, since if X becomes less than 1.1 then the resultant abrasive is underdressed and the attendant problems of scratching and rapid belt caliper change are encountered, and if X becomes greater than 2, then the belts tend to be overdressed which prematurely ends the useful life of the belt.
  • the "Multicut" T.M. coated abrasive may initially have a height of the tallest mound of the abrasive agglomerate 12 of approximately 0.066 inches.
  • Such coated abrasives are useful for a variety of grinding operations and may be used, for example, as an endless coated abrasive belt used to grind camshafts using a camshaft grinder such as the camshaft grinder described in U.S. Patent No.
  • Dressing of an abrasive belt also provides a coated abrasive with more predictable wear characteristics in that the useful life of a dressed belt is more readily predicted than a belt that is not dressed. It is believed that the pressures at the abrading interface of a dressed belt are more evenly distributed over the abrasive surface once the mountain-shaped portions are cut into the plateau shapes.
  • the width of the periphery of a portion of the metal stock 50 having the individual cutting surfaces 53 attached thereto is approximately the width of a single belt.
  • the total area of the periphery of the metal stock 50 which has cutting surfaces 53 attached thereto is substantially equal to or greater than the total of the widths of each of the endless abrasive belts 41.
  • Such a cutting means affords the user the opportunity to dress multiple belts at the same time which substantially reduces the time required to dress the plurality of abrasive belts 41 when compared with the time required to individually dress individual belts.
  • a plurality of single- point diamond dressing tools may be used as the cutting means.
  • the cylindrical piece of metal stock 50 may be rotated clockwise (alternatively the stock 50 may remain stationary) relative to the frame 45 of the grinding means 42 ( Figure 7) by any suitable drive means as the belts 41 are driven by the grinding means 42, and then moved toward the abrasive belts 41 in a direction generally perpendicular to the axis of the cylindrical piece of stock 50 into contact with the abrasive until the desired amount of material is removed from the abrasive.
  • the endless abrasive belts 41 may also be redressed while remaining mounted on the means 42 for driving the endless abrasive belt by simply cutting the abrasive agglomerate with the cutting means 50, 53.
  • Figures 5 and 6 illustrate a coated abrasive after it is used to grind nineteen (19) camshafts on a camshaft grinder. At this point, the "Multicut" abrasives tend to begin to become dull. Also, metal particles tend to become welded over the front surface of the abrasive.
  • Figures 12 and 13 illustrate the coated abrasive of Figures 5 and 6 after it has been redressed to resharpen and to clean the abrasive.
  • Redressing or cutting the abrasive belts with the cutting means after the belts are used to abrade several workpieces is believed to "clean" the abrasive belt by, for example, removing the metal particles which tend to weld themselves to the surface of the abrasive during grinding. Also, redressing the belts at this time provides a belt with a more uniform thickness and thus restricts the likelihood of wild scratches. Also, particularly when the abrasive comprises an abrasive belt with an agglomerate that includes abrasive grains, redressing the abrasive at this time is believed to expose additional grains to thereby sharpen and extend the life of the abrasive belts.
  • the present invention has been described in conjunction with a camshaft grinder 42, it should be noted that the present invention may be practiced with any suitable grinding assembly which utilizes a coated abrasive.
  • the formed wheel grinding assembly, conveyorized grinding assembly, centerless grinding assembly, surface grinding assembly, flexible bed sheet grinding assembly, rotary table surface grinding assembly, and swing grinding assembly described on pages 19-21 of Metalworking, Reference Manual, published by the Industrial Abrasives Division of Minnesota Mining and Manufacturing, ISBN #60-4400-0366-7 (1294)JR may utilize the abrasive belts and the dressing methods of the present invention.
  • Figure 10 illustrates a second method of dressing coated abrasives according to the present invention, generally designated by the reference character 18.
  • a multiple point cutting means having a cutting surface 33 constructed from a material harder than the abrasive grains 23 is again used to cut the mounds of the abrasive particles 22 from the front surface to form generally coplanar surfaces 25 ( Figures 3 and 4) generally parallel to the front surface.
  • Figures 7 and 9 illustrate coated abrasive belts dressed on a grinding machine.
  • Figure 10 illustrates an example of a method of dressing coated abrasives at a location remote from the location of their ultimate use.
  • the coated abrasives 20 may be dressed before they are shipped to the end user.
  • the coated abrasive 20 of the present invention may be prepared by the process comprising the steps of: (1) providing a flexible backing 21 with front and rear surfaces, and attaching discrete mounds of abrasive particles which includes abrasive grains 23 along the front surface, the mounds of abrasive particles projecting different distances in a predetermined range measured from the back surface of the backing (see Figure 1), (2) providing multiple point cutting means (e.g. 30) having cutting surfaces 33 constructed from a material harder than the abrasive grains 23, and then (3) cutting the mounds of the abrasive particles 12 projecting more than a predetermined distance within the range with the cutting means to form generally coplanar surfaces 25 generally parallel to the back surface.
  • multiple point cutting means e.g. 30
  • the cutting means has cutting surfaces 33 constructed from "super abrasives” such as diamonds, cubic boron nitride, metal carbides, metal nitrides or any other suitable cutting material as long as the material is harder than the abrasive grains 23.
  • the entire periphery of the cutting means includes cutting surfaces 33, unlike the metal stock 50 which only has selected portions coated with the cutting surfaces.
  • the width of the metal stock 30 should be at least substantially equal to the width of the coated abrasive 20 to afford efficient, effective dressing of the entire width of the abrasive 20.
  • the method of making a coated abrasive 20 shown in Figure 10 is particularly suitable for dressing large sheets or rolls of an abrasive belt prior to shipment to the ultimate user.
  • the dressing tool or multiple point cutting means comprises a cylindrical piece of metal stock 30.
  • the stock 30 may be rotated clockwise as the coated abrasive 20 is moved relative to the metal stock 30 from left to right in the figure.
  • Back-up means (not shown) are provided to support the coated abrasive 20.
  • the cutting means may be located proximate the coated abrasive then moved in a direction perpendicular to the axis of the cylindrical stock 30 toward the coated abrasive 20 into contact with the abrasive until the desired amount of material is cut from the coated abrasive 20.
  • the back-up means may comprise a hard flat surface or may comprise a hard cylindrical member adapted for clockwise rotation.
  • the cutting means may remain stationery or it may be oscillated.
  • FIG. 11 there is shown a schematic illustration of a third embodiment of the method of making or dressing a coated abrasive according to the present invention generally designated by reference character 70.
  • the method illustrated in Figure 11 is particularly suitable for dressing a wound abrasive from any suitable, known workpiece feed mechanism.
  • the workpiece feed mechanism may comprise an unwind wheel or drum 87 having a sheet of coated abrasives 71 wound and journaled thereon, a back-up wheel 72, and a take-up wheel 73.
  • a multiple point cutting means 82 (e.g. a generally cylindrical piece of metal stock) having cutting surfaces 53 harder than the abrasive grains 23 is provided.
  • the cutting means shown in Figure 11 may comprise a generally cylindrical piece of metal stock 82 having a periphery and a metal binder coated (e.g. electroplated or brazed) to its periphery and with cutting surfaces 83 (e.g. diamonds or boron nitride) applied to the metal binder.
  • the cutting means may be constructed by laminating (e.g. adhesively) a coated abrasive containing the cutting surfaces 83 harder than the abrasive grains to the cylindrical piece of metal stock 50.
  • the width of the metal stock 82 should be at least substantially the same as the width of the coated abrasive roll 71.
  • a cutting means having a width substantially equal to the total of the widths of the coated abrasive 71 is used, a large stock roll of coated abrasives may be quickly, conveniently and efficiently dressed in a relatively short period of time.
  • the cylindrical piece of metal stock 82 may be rotated counterclockwise as the coated abrasive 71 is moved relative to the metal stock 82 by the take-up wheel 73 in the direction shown by the arrows in the figure.
  • the cutting means 82, 83 is moved in toward the back up wheel 72 into contact with the abrasive to efficiently cut the mounds of abrasive particles 22 until the desired amount of material is cut from the coated abrasive.
  • the cutting means may be oscillated while in contact with the abrasive.
  • the method of the present invention may be described with respect to any suitable abrasive such as, but not limited to, the abrasive belts sold by Minnesota Mining and Manufacturing, St. Paul, Minnesota, under the trade designation 3M “Regal” T.M. Resin Bond Cloth Belts, or the abrasive belt also sold by Minnesota Mining and Manufacturing Company, St. Paul, Minnesota, under the trade designation 3M 33ID "Three-M-ite” T.M. Resin Bond Cloth Belts, or other abrasive belts that are not agglomerates.
  • any suitable abrasive such as, but not limited to, the abrasive belts sold by Minnesota Mining and Manufacturing, St. Paul, Minnesota, under the trade designation 3M “Regal” T.M. Resin Bond Cloth Belts, or the abrasive belt also sold by Minnesota Mining and Manufacturing Company, St. Paul, Minnesota, under the trade designation 3M 33ID "Three-M-ite” T.M. Resin Bond Cloth Belts,
  • the method.of the present invention is particularly suitable for use with automatic dressing mechanisms which control the interference between the dressing tool/cutting means and the coated abrasive.
  • the cutting means has been described as a cylindrical piece of metal stock, the cutting means may comprise any suitable shape, such as, but not limited to flat, arcuate, triangular, hexagonal or combinations thereof, as long as the cutting means includes cutting surfaces harder than the abrasive grains 23.
  • the cutting means may comprise Diamond Impregnated Dresser Style No. 556, available from Carter Diamond Tool of Willoughby, Ohio that is intended for use with bonded wheels.

Abstract

L'invention décrit un outil d'égalisation s'utilisant dans des procédés servant à ''égaliser'' des revêtements d'abrasifs (par exemple, tels qu'une bande sans fin). L'outil comporte des surfaces périphériques pourvues d'abrasifs et présentant généralement la même largeur que le revêtement d'abrasif. L'outil effectue simultanément l'égalisation de bandes abrasives multiples. L'invention décrit également plusieurs procédés d'égalisation d'un revêtement d'abrasif.
PCT/US1992/005827 1991-07-30 1992-07-13 Revetement d'abrasifs egalise au moyen d'un outil coupant a pointes multiples WO1993002837A1 (fr)

Priority Applications (3)

Application Number Priority Date Filing Date Title
EP92916764A EP0596999B1 (fr) 1991-07-30 1992-07-13 Revetement d'abrasifs egalise au moyen d'un outil coupant a pointes multiples
JP5503576A JPH06509519A (ja) 1991-07-30 1992-07-13 多点カッティング工具によりドレッシングされた被覆研磨具
DE69211137T DE69211137T2 (de) 1991-07-30 1992-07-13 Mit einem Vielpunktschnittwerkzeug, planiertes, beschichtetes Schleifmittel

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
US73824991A 1991-07-30 1991-07-30
US738,249 1991-07-30

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WO1993002837A1 true WO1993002837A1 (fr) 1993-02-18

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PCT/US1992/005827 WO1993002837A1 (fr) 1991-07-30 1992-07-13 Revetement d'abrasifs egalise au moyen d'un outil coupant a pointes multiples

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EP (1) EP0596999B1 (fr)
JP (1) JPH06509519A (fr)
CA (1) CA2112479A1 (fr)
DE (1) DE69211137T2 (fr)
ES (1) ES2087550T3 (fr)
WO (1) WO1993002837A1 (fr)

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US5573619A (en) * 1991-12-20 1996-11-12 Minnesota Mining And Manufacturing Company Method of making a coated abrasive belt with an endless, seamless backing
US5578096A (en) * 1995-08-10 1996-11-26 Minnesota Mining And Manufacturing Company Method for making a spliceless coated abrasive belt and the product thereof
US5584897A (en) * 1994-02-22 1996-12-17 Minnesota Mining And Manufacturing Company Method for making an endless coated abrasive article
WO1998045090A1 (fr) * 1997-04-04 1998-10-15 Obsidian, Inc. Magasin pour support de polissage ameliorant le polissage
US6106382A (en) * 1996-06-27 2000-08-22 3M Innovative Properties Company Abrasive product for dressing
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US6406576B1 (en) 1991-12-20 2002-06-18 3M Innovative Properties Company Method of making coated abrasive belt with an endless, seamless backing
US6406577B1 (en) 1991-12-20 2002-06-18 3M Innovative Properties Company Method of making abrasive belt with an endless, seamless backing
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JPH06509519A (ja) 1994-10-27
ES2087550T3 (es) 1996-07-16
EP0596999A1 (fr) 1994-05-18
CA2112479A1 (fr) 1993-02-18
DE69211137T2 (de) 1997-01-23
EP0596999B1 (fr) 1996-05-29
DE69211137D1 (de) 1996-07-04

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