US2928136A - Method of forming coated abrasives - Google Patents

Description

March 15, 1960 k G. L. HAlYWOOD METHOD OF FORMING COATED ABRASIVES Filed April 10, 1958 FIG;

38 37 35 1 as i 42 INVENTOR.

GEORGE L.HAYWOOD ATTORNEY United States Patent METHOD OF FORMING COATED ABRASIVES George L.Haywood, Latham, N.Y., assignor to Norton Company, Troy, N.Y., a corporation of Massachusetts 3 Claims. Cl. 18-56) The present invention relates generally to the manufacture and treatment of coated-abrasive items and more specifically to a method of producing a permanent'deformation in a piece of coated abrasive material and to the products formed thereby.

Sandpaper, or coated abrasive as such material is more properly called, is made today in a variety of forms and shapes for many industrial uses. Generally the coated abrasive material is produced in the form of wide webs which are wound upon themselves to form large rolls known as jumbos. From these jumbo rolls the material is cut in the form of sheets, discs, small rolls, etc., for use by'the ultimate consumer.

The majority of these converted forms of coated abrasives today are produced by a simple cutting or dieing operation which separates the converted form from the large sheet of material without causing any substantial deformation of the coated abrasive material so separated.

Certain applications, however, require that the converted form of coated abrasive conform to a surface, such as that of a disc back-up pad or the like, which is not planar in nature but may be cone-shaped or of other similar configuration as, for example, that illustrated in US. Patent No. 2,480,508. In such instances it is common practice to cut a plurality of notches in the edgesvof the coated abrasive material to permit such material to..conform to the back-up surface without wrinkling. Such practice is illustrated in US. Patent No. 2,480,508v referred to above. 1

It has been recognized that it would be desirable .to be able 'to form the coated abrasive item in the desired shape without the necessity of cutting out any segments, and attempts have been made to press the coated abrasive material into the desired shape. These pressing attempts have heretofore had limited success since the pressing has-caused the formation of wrinkles in thesurface of the material .and' around the. edges thereof which made the products generally unacceptable.

.Accordingly, it is an object of the present invention to provide a method for producing a permanent deformation in coated abrasive material. I

A further object of the invention is to provide a method for producing a permanent deformation in coated abrasive material without concurrently producing a wrinkled surface thereon.

Another object of the invention is to provide a method of producing a coated abrasive product which is permanently deformed from its normal planar configuration.

Additional objects, it not specifically set forth herein, will be readily apparent to one skilled in the art from the following detailed description of the invention:

In the drawings:

Figure l is a perspective view of one type of coated abrasive product which can be produced by the present invention and of the back-up pad to which it is designed to conform.

Figure 2 is a schematic represepta-tion of one means 2,928,136 Patented Mar. 15, 1960 'by which the method of the present invention may be carried out.

Generally, the present inventioninvolves the formation of a plurality of cracks or fractures in the adhesive coat used to bond the abrasive grain to the backing of a piece of coated abrasive, and the simultaneous or subsequent permanent realignment, displacement and/or stretching of the fibers of the backing'in the areas thus' freed of bonding by the adhesive coat, through the application of pressure to such backing."

More specifically, pressure is applied to the backing through a punch, shaped to the desired configurationof the finished item. The backing itself, prior to the application of'pressure, is treated to soften the fibers thereof and to condition the backing to permit slippage of the fibers when pressure is applied. This softening treatment may utilize either water or solvent as is more fully de'-' scribed below.

It is critical to the success of the present method that the edges of the coated abrasive material defining the deformation to be produced be held againstanysubstantial movement during the'period'of application of the deforming pressure. Unless this is done and the backing has first beensoftened, s'harp'wrinkles will be produced at the edges and extendingup into the de formed area. 7 s .rn order that the deformation produced-by this method be permanent in nature, it is necessary that the moisture or solvent in' the backing be driven out after the defo rrria tion-is produced. This can be accomplished by 'rnaintali'n ing the deforming pressure for a sufiicient period of time to permit the backing to reach equilibrium at the normal room conditions prevailing during the deforming operation. However, in the interest of mass production it is preferable to apply heat to the backing, either during forming or immediately thereafter, in order to drive out the moisture or solvent and to set the material in the deformed shape. 1

Referring now to the drawings, Figure 1 illustrates oneform of coated abrasive product which is capable of being produced by the present invention. Numeral 10 desig nate's the coated abrasive item which in this instance is a disc having a deep saucer-shaped configuration. As illustrated, the adhesively-bonded grain coating 11 of the disc is on the outer convex portion of the disc and the backing 12 of the coated abrasive material forms the interior concave portion thereof. A back-up pad 13 is also shown having the same configuration as the disc 10. Pad 13 has suitable means 14 provided on the reverse side thereof to permit mounting on a power head of con-- ventional design. The disc 10, in use, is placed on the 1 pad 13 and held thereon by means offa coating of adhesive (not shown) between the pad and the inside of the disc. This adhesive may be of the rubber cement type,

pressure-sensitive, or any other known'form'of adhesive.

It will be observed that disc 10 has throughout the abrasive surface 11 thereof a plurality of fine cracks or fractures 15. These, in effect, separate the adhesive coating holding the grain to the backing 12 into many islands or spaced areas, freeing the backing from the adhesive over: It is believed that the fibers of the backing, when treated according to the the areas of the minute fractures 15.

present invention, slip and are displaced in these areas bend as it passes over such bars, to produce a single, double or triple flexed material as is known in the art. Other flexing methods which result in the formation of plural fractures in thegrain :bonding adhesive coat or coats may also be used if desired. While it is preferable to produce the fractures in the adhesive coat prior to deforming the material into the desired configuration, it is possible to utilize the pressure applying means which imparts the'desired configuration to the material {as described in connection with Fig. .2 below) to also produce the fractures in the adhesive coat of the material. This latter procedure is apt to be somewhat unsatisfactory in that the fractures so produced tend to be larger and much less uniform than those produced by conventional flexing methods.

Referring now to Figure 2, there is shown schematically a diagram of the process of the present invention. The coated abrasive material 30 comes from the jumbo or storage roll 31 through a flexing operation indicated at 32 and into a softening treatment step .33. In this step, the moisture or solvent may be put into the backing in various ways. The backing may be wet with :liquid water and allowed to dwell for a sufiicient period to permit penetration. This type of wetting can be carried out using wet rolls, brush, spray, etc. Also, the backing may be wet through :use of moist steam. However, for

rapid production it is preferable to place the material, either after blanks of the desired size have been cut or while still in jumbo form, in a high humidity storage area. The material is left in such area for a period of time which permits even penetration of moisture through the backing. The amount of moisture required for best results will vary somewhat depending particularly upon the nature of the backing material and the nature of any prior treatments it may have received, i.e. cloth finishes of various types, etc. Generally, however, exposure of the material to a relative humidity ;-of 65% for at least 24 hours will be sufficient. Surface moisture is undesirable, and where direct wetting of the backing is the method employed, a dwell period of about 2 minutes at normal room conditions should be employed to permit the surface moisture to dissipate. Polar solvents such as methanol, acetone or the like may be sub stituted for water in this :step.

Following the softening step, the material, .cut into blanks of at least 41" greater dimensions that the item to be produced, is placed over a female mold 34; This mold may be shaped to the configuration desired in the finished item or it may be, as shown in Figure 2, merely a ring member. The coated abrasive material comprising a fibrous backing 35 and an adhesive-grain coating 36 is placed, grain side down over mold 34. Aclamping member 37 is placed over'the coated abrasive material and firmly engages and holdsthe edges of such material uniformly around the portion to be deformed and against the top of the mold member 34. This feature of uniformly holding the edges is extremely important to the success of the present method. A male punch member 38 then is placed over the coated abrasive material and the material is depressed into the female mold 34. Since the coated abrasive material is firmly held entirely and uniformly around the periphery of the mold 34, only the central portion thereofis free to be deformed. The fibers of the coated abrasive backing slip and are displaced as descn'bed above to permit the material to conformto the .shapedmale punch. While heat may be applied later or. dispensed with, as mentioned previously, it is preferred to have the punch 38 heated as by electrical means indicated at 39. This permits rapid removal of water or solvent from the backing and quick setting-up of the fibers of the backing in their new displaced relationships. I

The punch is then lifted and the coated abrasive item, now permanently deformed into the desired configuration,-is ejected. A'lip member remains around the edge of the formed coated abrasive item 41 where the clamping member 37 engaged the material. Therefore the final step in the process requires the cutting oif of this lip member as by means of a ring punch 42 or the like, leaving the final item 41 similar to that shown at 10 in Figure 1.

While described in connection with a saucer-shaped disc item, the process is applicable to the formation of many coated abrasive items. For example, molded rolls may be produced wherein the coated abrasive is in the form of a long, narrow web having a U-shaped crosssection (in which case the material is held only along the sides of the web), and other coated abrasive items wherein permanent deformation of the material from its normally planar form is desired.

The term permanently deformed as used herein is intended to mean that the coated abrasive material is so altered in form that it will not return to its original shape and dimensions under any normal conditions of storage or usage.

The term fibrous as used herein is intended to cover backing materials such as paper, vulcanized fiber, cloth or the like made from both natural or synthetic yarns, fibersor filaments. .In the case of woven backings, either the closely woven jeans and drills or the more open mesh cloth .materialsmay be used.

Obviously many variations and modifications not specifically set forth herein may be made without departing from the spirit and scope of the invention disclosed above, and therefore only such limitations should be imposed as appear in the appended claims.

This application is a division of my co-pending application, Serial No.65 1,463, filed April 8, 1957,, now U.S.

Patent No. 2,838,891, issued June 17, 1958.

I claim:

1. A process for producing a permanent deformation in a piece of normally planar, fibrous-backed coated abrasive material having an adhesive coating firmly bonding abrasive grain to one surface of said fibrous backing which comprises: forming a plurality of fine fractures in said adhesive coating extending throughout the area to be deformed of said material; softening said fibrous backing to permit slippage of the fibres thereof within said area .to :be deformed; restraining said fibrous backing from any substantial movement at the marginal portion bounding said area to be deformed; applying pressure to the non-abrasive surface of said backing in the area to be deformed whereby a plurality of the fibres of said backing in said area are displaced from their normal position in the portions of said area covered by said fine fractures; and setting said fibres in such displaced position to hold said material permanently deformed.

'2. A process for producing a permanent deformation in a piece of normally planar, fibrous-backed coated abrasive material having an adhesive coating firmly bonding abrasive grain to one surface of said fibrous backing which comprises: forming a plurality of fine fractures in said adhesive coating extending throughout the area to be deformed of said material; softening said fibrous backing to permit slippage of the fibres thereof Within said area to be deformed; restraining said fibrous backing from any substantial movement at the marginal portion bounding said area to be deformed; applying pressure to the non-abrasive surface of said backing in the area to be deformed whereby a plurality of the fibres of said backing in said area are displaced from their normal position in the portions of said area covered by said fine fractures; and heating said backing while said deforming pressure is still applied thereto to permanently set said fibres in said displaced position.

3. In a process for producing a permanent deformation in a piece of normally planar, fibrous-backed coated abrasive material having an adhesive coating firmly bonding abrasive grain to one surface of said fibrous backing the steps which comprise: flexing said fibrous backing References Cited in the file of this patent UNITED STATES PATENTS 643,235 Rogers et a1. Feb. 13, 1900 643,236 Rogers et a1. Feb. 13, 1900 1,253,316 Weiland Jan. 15, 1918 2,666,951 Grove et al. Ian. 26, 1954 a 7 OTHER REFERENCES Plastics Engineering Handbook (Soc. of the Plastics Ind.), published by Reinhold Pub. Corp., 1954, New York (pp. 154-159, 166-170, 190-194). (Copy in the 10 Scientific Library and Division 15.)

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