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Publication numberUS2036903 A
Publication typeGrant
Publication dateApr 7, 1936
Filing dateMar 5, 1934
Priority dateMar 5, 1934
Publication numberUS 2036903 A, US 2036903A, US-A-2036903, US2036903 A, US2036903A
InventorsDuane E Webster
Original AssigneeNorton Co
Export CitationBiBTeX, EndNote, RefMan
External Links: USPTO, USPTO Assignment, Espacenet
Cutting-off abrasive wheel
US 2036903 A
Abstract  available in
Previous page
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Claims  available in
Description  (OCR text may contain errors)

Aprifi 1936- D. E. WEBSTER 2,036,903


DUANE E. WEBSTER- Patented Apr. 7, 1936 PATENT OFFICE 2,036,903 CUTTING-OFF ABRASIVE WHEEL Duane E. Webs ten-Worcester, Mass, assignor to, Norton Company, Worcester, Mass, at corporation of Massachusetts Application March 5, 1934, Serial No. 713,972

.7 Claims. (01. 1-.-206) This invention relates to a cutting-01f abrasive wheel and more particularly to a disk shaped wheel whose diameter is very greatas compared to its thickness and which is relatively thin and fragile and of such a size that it may be employed in the nature of a rotary saw for rapidly cutting deep, narrow grooves or cutting. oiI. lengths of materials.

Due to the efficiency of present day highspeed grinding operations, with constantly increasing demands of industry for higher rates of production, abrasive ,cuttingofi wheels are replacing circular steel saws in many cutting operationsfi ous expedients have been contemplated, such as These cutting-01f wheels are relatively thin as compared with their diameters. For example, such a wheel may be 20 inches or less in diameter andof an inch or less in thickness. These wheels have substantially parallel fiat opposed side faces andthey depend entirely upon the sharp projecting abrasive grains which protrude from the narrow wheel periphery to accomplish the entire cutting operation. Due to the narrow common types of circular steel saws heretofore employed, and the rapidity of such a grindingoperation is so great that there is insumcient opportunity for dissipation of the heat of. grindiing. This excessive heat of grinding tends to cause a softening of the wheel bond, resulting in uneven .stresses within the grinding wheel and changes. of its abrading characteristics, thereby causing warpage and often breakage of the wheel and injury to the work as .well as endangering the machine operator. It has been found that the common type of flat sided cutting-off wheel as heretofore employed, tends to wear away rapidly at its edges and such 'a. wheel gradually becomes narrowerin thicknessat its periphery than at its central portion. When a wheel whichhas become worn in this manner, is fed into the work for a cutting-01f operation, it does not cut sufficient clearance for itself as it enters the work and it tends to bind in the cut and to break therein, as well as to produce an unsatisfactory cut which is not perpendicular to the axis of wheel rotation. In view of the fact that cutting-01f wheels of this type are often rotated at such excessive speeds as 16,000 surface feet per minute, it will be appreciated that breakage of such a wheel might easily cause considerable damage and endanger the machine operator.

Many of these thin cutting-off grinding wheels become warped .during the process of manufacture owing to the fact ,that gases present within the wheel structure are not evenly released during the maturing of the bond. In view of the fact 5 that cutting-ofi wheels are so extremely thin and" fragile, it is essential that they must not be subjected to transverse pressures. Even a slight wheel warpage would cause transverse wheel pressuresand result in wheel chatter and breakage. As a consequence, all of the warped wheels must be discarded during manufacture as unfit for use.

In order to provide cooler cutting wheels, varicutting spaced grooves and indentations in the opposed flat parallel side faces of a cutting-ofi wheel, but these indentations have only served to weaken the wheels and have not provided sufficient surface cooling to permit a high speed cutting-off wheel to operate at maximum efiiciency within its greatest cutting capacity.

I It is, therefore, the principal object of this in,- vention to provide a cutting-01f wheel which is capable ofa cool, rapid abrading operation and which is adapted to grind deep narrow grooves at its maximum cutting capacity'without heating sufiiciently at the point of grinding contact to soften the wheel bond or to affect the cutting capacity of the wheel.

It is a further object of this invention to provide a cutting-off wheel structure which will serve to maintain parallel faces in the cut and so prevent the wheel from binding therein.

It isa still further object of this invention to provide a method of producing a cutting-off wheel wherein the gases within the raw wheel may be evenly liberated during thematuring of the wheel bond to prevent wheel warpage during manufacture.

4 wheel. Each of theseprojecting teeth is preferably composed of one or a plurality of protruding abrasive grains bonded together and 50 cemented to the body portion 'of the wheels in various cluster-like formations which extend out from the Opposed side faces of the wheels in spaced relation to each other; and they are preferably arranged to form a substantially uniform pattern. It is also preferable that a relatively large portion of each outside abrasive grain project from the side wheel face and that these individual grains thus form a large number of minute sharp abrasive cutting-ledges or teeth which constitute the major portion of each side wheel face.

ting-off wheel as disclosed in this invention are comparable with an abrasive paper or cloth wherein a large number of abrasive grains each project upwardly from a supporting body which contains a cementing matrix, and thereby pro- ,vide a multiplicity of extremely sharp individual cutting edges.

During the grinding operation, these abrasive teeth abrade the side faces. of the work cut in they do not tend to rub into-the side faces of the wheels and glaze the wheel as is often the case with a smooth sided cutting-off wheeL These abrasive teeth are relatively small in size, as'compared with the thickness of the cuttingoff wheel, and they are so positioned and shaped that the relatively small amount ofv bond which secures the grain clusters together onto the main body portion :of the wheel will not appreciably affect their cutting action or interfere with their abrading engagement with the work. These teeth are preferably formed by extruding the abrasive grains and bond in the surface of a cutting-off wheel up through a wire screen of fine mesh during the process of shaping the raw material and before the maturing of the bond. It will be appreciated, however, that a suitable mixture of abrasive "grains and, bond may be coated on a separately manufaqured grinding wheel and thereafter be extruded up through a wire screen to form the desired grough wheel face. Such a wire screen may be suitably supported and pressed I against the opposed sidefaces of a grinding wheel in such a mannerras to force one or more abrasive grains into the spaces between the wires of the mesh. The screen serves to displace the surface abrasive grains ,on the side faces of the wheel causing many of them to be oriented and projected up through the meshes of the screen. During the process of impressing the wi're'screening against the opposed faces of the raw wheel, a small amount of bond will also be forced up between the wires. However, such bond as is extruded with the abrasive grainsizhrough the mesh of the screen, is of a relatively fragile nature,

, and during the operation of grinding it will rapidly wear or break away so that sharp protruding edges of the abrasive grains are left fully exposed for a cutting operation. The mesh of the 'wire screen is preferably comparatively fine so that only one or a very small number of abrasive In "other words, the opposed side faces of the cutthe rough wheel sides,

depending upon the size of the abrasive grains employed and the amount of bond present. For

example, if a single abrasive grain and a very small amount of bond flows up into each mesh of thescreen, the pattern will not show, butthe wheel face will appear rough like a very coarse abrasive paper or cloth. If the grains are small as compared with the apertures of the wire mesh and there is a relatively large amount of bond present, the impressions of the wire screen in the side wheel faces may appear as a definite reticu- 'lated repetitive arrangement with the clusters of abrasive grains in a substantially tessellated pat tern. It should be understood that the size and shape of the wire mesh screen is not important except it must be so chosen as-to permit a relatively small number of abrasive grains to be extruded through each screen aperture so that many the side wheel faces in spaced relation and serve to abraiie the sides of awork-cut and relieve the sharp abrasive teeth will project laterally from I wheel during the grinding operation. "Impressing of suitable wire screens into the opposed side wheel faces also serves to evenly release the gases within the cutting'off wheel during the maturing of the bond and thereby prevent any tendency towards wheel warpage.

My invention will be more fully understood by reference to the accompanying drawing in which 5 like numerals indicate like parts and wherein:

Fig. 1 shows one method of shaping a suitable mixture ofv abrasive grains and bond into a cut ting oif disk,

Fig. 2 shows a screen employed in forming Fig. 3 shows one method of producing cutting teeth which project from the wheel sides and Figs. 4, 5 and 6 diagrammatically illustrate the various types of cutting off wheels produced by my method, \which have one or a plurality of grains in each of the cutting teeth.

'As illustrated in the accompanying drawing, the preferred type of my invention comprises a cutting-off grinding wheel ill which is very thin as compared with .its diameter. The wheel may be composed of abrasive grains, such ascrystalline alumina or silicon carbide, of suitable size and secured into an integral grinding wheelstructure by any suitable matured bond, and particularly an organic bond, such as rubber, shellac or other natural resins, or the synthetic resinoids including the well-known phenoliccondensation products, as are commonly employed in this art.

The finished grinding wheel is provided with two opposed side faces which are of a predeter- -mined roughness; and have a large number of will abrade the side faces of a cut as the wheel enters the work. In order to provide a substantially even tooth size and uniform spacing thereof, a plurality of evenly spaced intersecting grooves I5 which may form a reticulate or other suitable pattern are impressed into the opposed side faces, of the-wheel. Althoughthe-widthof these grooves may not be important in some types of wheels, they are preferably narrow as compared with the size of the sharp projecting abrasive teeth, so. that the teeth cover the major portions of the opposed wheel faces, thereby providing a large number of sharp cutting edges projecting from each wheel face and extending above the general level of the wheel body. The number and size of the teeth determine the extent of roughness of the opposed wheel faces. In the preferred form of my invention these abrasive teeth project singly or in clusters in spaced formation from the main body portion of the grinding wheel in a. substantially tessellated or other suitable uniform patternas desired. It is to be understood, however, that these surface projecting portions of abrasive teeth need not necessarily be arranged in any definite pattern on the wheel side; but they should be of such a size and so spaced with relation to each other as to provide the wheel sides of a high degree of roughness so that the side wheel faces are capable of rapidly cutting themselves free of the work and thereby preventing any tendency of the grinding wheel to bind within the work.

Various methods may be employed to produce this rough sided cutting-0E grinding wheel, but

in accordance with my preferred method of manufacture, I propose to impress a fine mesh screen into each-of the opposed side faces of the raw wheel mixture prior to the maturing of the bond, so that one or more abrasive grains in the surface of the raw wheel mixture will be extruded out between each of the apertures in the screen and thereby provide a large numberof spaced cutting teeth projecting from theside wheel faces.

In the manufacture of this rough sided cutting off wheel, I may employ any suitable raw, unmatured bond to unite the granular abrasive material, such as sodium silicate, with or without various fillers, or an organic bond, including the resinoids, rubber, etc. The abrasive grains and bond'are intimately mixed in any desired proportions in suitable mixing machinery, as is well known to the'art. If desired, various temporary binders or fillers may be employed in the mixture of raw bond and abrasive. It isessential, however, that the raw wheel mixture must be of such a consistency that it may be temporarily pre-shaped by any suitable cold or hot moulding operation and thereafter by proper application of heat, the raw bond may be matured in position to bind the abrasive grains together and form an integral grinding wheel structure.

Figs. 1 and 3 illustrate one convenient method of quickly and easily producing my invention as applied to a wheel having a resinoid bond. As shown in Fig. l, the raw wheel mixture. is first placed in a suitable type of pressedwheel mould wherein a cylindrical press plate 29 of that of the finished wheel hole is slidably' and coaxially fitted within a central hole 25 in plate 20 4 and supported by bed 22. An annular member 21 of required size slidably fits against the periphery of press-plate "20 and is supported by bed. 22. A desired amount of raw mixture of abrasive and bond isepouredor otherwise placed and evenly distributed over press plate 20 between the annular member 21 and post 23,-and atop pressure plate28 is placed upon the wheel mixplish this, a wire mesh screen is impressed into the opposed side wheel faces for a predetermined distance, causing the abrasive grains inthe surfaces of the side faces to become oriented and extruded up through the apertures in the mesh of the screen, thereby providing a large number of surface abrasive grains having sharp cutting edges projecting from the main body portion of the side wheel faces. It will, of course, be appreciated that some of the raw wheel bond it will also be extruded up through the screen, but

this will not interfere with the sharp cutting edges of the protruding abrasive teeth, since the engagement of the wheel and work in a grinding operation will cause the extruded bond to rapidly wear away and leave the edges of the teeth free for a cutting operation.

As illustrated in Fig. 3, I employ a supporting plate 33 having a plane supporting face 34 of greater area than the side face of the grinding member 30. A flat sheet of wire screening 32 of suitably sized wire and mesh is next placed upon the surface 341 and the grinding member 38 is laid thereon so that its entire lower side face is engaged and supported by the screen 32. A similar wire screen 32 is next placed upon the upper flat face of the abrading member 30 and a top metal plate 36 is placed upon said screen so that its lower plane face 3'! will tend to evenly imprms the upper screen 32 into the grinding member. The top pressure plate 36 is of suflicient weight and size to cause each of the wire screens 32 to impress a definite pattern into the opposed side faces of the grinding member 30. If desired, pressure may also be applied to cause the top plate to move toward the supporting plate 33 and thereby impress the patterns of the wire screens into the opposed side wheel faces.

In order to prevent the screens 32 from being grinding member 30 and thereby forming smooth faces of bond and grain pressed against the plates 33 and 36, a series of spacing blocks 80 are placed on the top face 32 of the supporting plate 33 and between plates'33 and 36. These blocks are of the same height so that they will limit the extent of downward movement of plate 36 towards plate 33 and the extent to which screens 32 are impressed into the opposed side wheel faces. In my preferred type of rough wheel side, I impress the wires of screens 32 for approximately one-half of their diameters into the side faces of the opposed flat sides of the grinding member 36, thereby causing a large number of the surfaceabrasive grains to be engaged by the wires and oriented so thatone or more grains is upended and extruded between the mesh apertures as shown in Figs. 4, 5 and 6. It has been found that in this way the extruded abrasive grains will tend to form irregular projections separated by a large number ofintersecting depressions in the opposed side wheel faces. 1

For example, successful rough sided cutting-oi! grinding wheels have been produced in accordance with my nvention by employing wire screens composed of interwoven wires 0.018" in'diameter forming a mesh of 20 apertures to the linear inch,

the irregular shape and the many projecting edges of the grains, a wheel having coarse grains will not show the screen pattern as clearly as will one having the small grains. If coarse grains are used, the wheel faces will appear very much like a coarse abrasive paper or cloth wherein a large number of abrasive grains aresecured by a suitable cement to a flexible backing material. It is immaterial whether or -not a visible pattern is impressed into the opposed side wheel faces, since the purpose of the screen is simply to orient the surface abrasive grains and to extrude them from the main body portion of the wheel, thereby forming a large number of sharp abrasive cutting projections. It will also be appreciated that various sizes of screens and shapes of mesh may be em- :ployed to produce my type of cutting-oi! wheel and it'is not desired to limit my invention to any particular size or type of screen. It will also be appreciated that the teeth may be provided by other suitable types of apparatus, since they may be formed by means of pressure plates,.rollers, etc., which have been shaped to the required pattern having projections adapted toproduce the grooves |5 and grooves into which the abrasive grains may be extruded. Hence, such other forms of apparatus are to be considered as full equivalents of the screens above described. In the use of such rollers or pressure plates, the grains and bondare not to be extruded into contact with the bottoms of the grooves on the plate or roller, unless the pattern is such asto give a simulation of the'sandpaper-like appearance of the cuttingoif wheel above described. In the latter case, the pressure plate or roller might be shaped as the intaglio of the sandpaper pattern or in other desired arrangement which produces the spac cutting teeth of the present invention.

.After the scree'ns have been impressed into the cpposedside wheel faces to form sharp projecting cutting teeth thereon, suilicient heat is applied to set the bond and secure the abrasive grains together. into an integral wheel structure, whereupon the finished cutting-off grinding wheel may be removed from between the pressm'e plate and screens and other cutting-oi! wheels made with the same apparatus'and by the same method.

The resinoid bond is preferably matured while the screens are in place. I

It will be appreciated in accordance with the above disclosure that my invention involves two important aspects: first, a'large number of sharp abrasive cutting teeth pmiectingin spaced relationship from the opposed side faces of a thin disk shaped cutting-oil. .wheel which serve to abrade the sides of a work cut and provide suincient clearance between the wheel and work so that the wheel will not bind within the work dur-.-

' ing a cutting operation; and second;a reticulated or other suitable pattern by a wire screen or other suitable devices into the opposed with a series of interconnecting depressed portions which aid in clearing chips from the work cut and in providing clearance spaces between the wheel and work into which suitable coolants may be entered to prevent the wheel and work from overheating and glazing during the cutting operation.

If a wire screen is employed to impress a desired pattern and form the projecting abrasive cutting teeth in the opposed wheel sides,- the IQ shapes, sizes and general contours of the cutting teeth may be controlled by the size of wire and mesh of the screen as well as by the depth to which the-screen is impressed into the wheel and the size of abrasive grains and amount and 15 type of wheel bond present. Hence, it will be apparent that the present invention relates to a rough sided cutting-oil! wheel-manufactured by my method and having side faces of any desired degree of roughness. For example, my invention 29 provides for a cutting-off wheel having very rough side faces which-are comparable in appearance to an abrasive paper, wherein the wire screen or other pattern making device serves to locate single large abrasive grains which are.

mixed with a small amount. of bond, or the pattern makingv device may serve to locate small abrasive grains .present I in a relatively large amount of bond into definite cluster formations which may appear in tessellated formation sep- 30 arated by a reticulate or other suitable pattern impressed into the side wheel faces. In either of the above cases, the individual abrasive cutting teeth will project to substantially the same extentjrcm the body portion of the wheel and these teeth will be separated by a suitable series of interconnecting depressions in the side wheel faces.

It will therefore be recognized that thisv invention contemplates many types of grinding wheels 40 as well as the methods of. their manufacture and 'is not limited to the types of bond and abrasive employed. Various modifications in structure and in the method of manufacture will be apparent to one skilled in the art and the claims are to be interpreted broadly within the scope of this disclosure.

Having thus described the, invention, what is claimed as new and desired to obtain by Letters Patent is: I

L-A cutting 91f grinding wheel adapted'for producing deep narrow cuts comprising a thin disk shaped body of abrasive'grains and an organic bond united in a compressed heat set condition as an integral body having a peripheral 5 cutting face and two opposed sideiiaces, each of the latter carrying a patternimpressed thereon which provides a multiplicity of exposed, laterally projecting, small abrasive teeth separated'by clearance spaces which present sharpedges sulistantially free from the bond that are free cutting and capable of abrading the sides of the cut and preventing the wheel from binding therein." 2. A cuttlng -ofl." grinding wheel adapted for producing deep, narrow cuts comprising abrasive grains and an organicbond united in a compressed dense best set condition as an integral sdisk shaped central body portion having a thickness which is very small in comparison with its diameter and providing a peripheral grinding face, and .side'face portions of a predetermined roughness and cutting ability carrying patterns impressed thereon which provide a multiplicity of spacedabrasive'teeth, acne! which containsone aide wheel fsceswlm'eby-the wheel is provided or arelativelysinail number of exposed abrasive grains projecting from the opposed wheel sides, said teeth being separated from each other by clearance spaces no smaller in size than thatof an abrasive grain within the wheel which are substantially free from bond so that the teeth present sharp edges which abrade the sides of the work cut and prevent the wheel from binding therein. I

3. A cutting-off grindingwheel adapted for producing deep, narrow cuts comprising a thin disk shaped body of bonded abrasive grains havthrough the screen apertures, thus providing 'a' ing a peripheral cutting face and two opposed side faces, each of which has a surface of predetermined roughness carrying the reticulated pattern of a wire screen impressed thereon and providing a multiplicity of abrasive grains having exposed cutting edges freeof bond and laterally protruding in spaced clusters from the wheel sides, which is fast and free cutting and will not bind within the work during a cutting operation.

4. The method of producing a cutting-off grinding wheel adapted for making deep, narrow .cuts, comprising the steps of pressing a mixture of raw organic bond and abrasive grains into the shape of a thin body having two opposed substantially flat faces, impressing a pattern into the opposed faces to make them of a desired roughness and provide a multiplicity of sharp.

abrasive cutting teeth projecting therefrom in spaced relation, and treating. the body in the shape of a disk to mature the wheel bond and form an integral grinding wheel structure having rough side faces which are composedlargely of sharp abrasive cutting teeth projecting. therefrom and adapted to abrade the sides of the work cut during the cutting operation.

multiplicity of raised, sharp abrasive cutting teeth separated, by depressed .wheel portionsand protruding laterally from each of the side wheel faces, and thereafter maturing the wheel bond to form an integral abrasive cutting-ofi wheel structure having side faces of predetermined roughness.

6. The method of producing a cutting-off grinding wheel adapted for making deep, narrow cuts comprising the steps of pressing a mixture of abrasive grains and raw organic bond into the shape of a thin disc having two'substantially parallel opposed flat side faces, pressing a wire screen of such mesh intoeach of the side wheel faces and for such adistance that a relatively small number of surface abrasive grains willbe extruded up through each screen aperture in the form of a sharp tooth-like projection having a mo d-like formation and providing a multiplici y of spaced teethswhichcover the major portion of each side wheel face in a predetermined pattern formation, and thereafter maturing the organic bond to provide an integral wheel structurehaving side faces of a predetermined roughness.

" '7. The method of producing a cutting-off wheel adapted for making deep, narrow cuts, comprising the steps ofpreforming a mixture of abrasive grains and raw organic bond into the shape of a thin disc having two substantially parallel opposed flat side faces, pressing a wire screen of. such small mesh size and for such a distance into each of the opposed side wheel faces'that a small number of surface abrasive grains will be extruded through each screen aperture and project from the wheel sides in a sharp tooth-like mound-shaped formationfthus providing a large number of spaced abrasive cutting teeth which cover the major portion of the side wheel faces in a predetermined pattern formahaving side faces of a desired roughness.


Referenced by
Citing PatentFiling datePublication dateApplicantTitle
US2712205 *Jun 20, 1952Jul 5, 1955Crucible Steel CompanyAbrading roll
US2775854 *Feb 8, 1954Jan 1, 1957Carl KlingsporCutting or polishing disk
US2978847 *Apr 25, 1958Apr 11, 1961Philips CorpAbrasive cutting wheel
US4901622 *Dec 8, 1987Feb 20, 1990Royal Ordnance PlcArmour constructions
US4934245 *Sep 18, 1987Jun 19, 1990Fmc CorporationActive spall suppression armor
US7063608 *Sep 15, 2003Jun 20, 2006Noritake Co., LimitedGrinding wheel having core body coated with impermeable coating
US20040082290 *Sep 15, 2003Apr 29, 2004Noritake Co., LimitedGrinding wheel having core body coated with impermeable coating
US20050016517 *Jun 2, 2004Jan 27, 2005Perry Edward RobertAbrasive blade
U.S. Classification51/293, 109/80, 89/36.2, 109/82, 451/541
International ClassificationB24D18/00, B24D5/12
Cooperative ClassificationB24D5/12, B24D18/00
European ClassificationB24D18/00, B24D5/12