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BACKGROUND OF THE INVENTION 
     This invention relates to an abrasive body and more particularly to an abrasive body which can be used as a tool insert. 
     Composite abrasive compacts are products used extensively as inserts for abrasive tools such as drill bits. Such composite abrasive compacts comprise an abrasive compact layer bonded to a cemented carbide support. The abrasive compact will typically be a diamond abrasive compact, also known as polycrystalline diamond or PCD, or a cubic boron nitride compact, also known as polycrystalline CBN or PCBN. 
     Composite abrasive compacts are manufactured under elevated temperature and pressure conditions. e.g. diamond or cubic boron nitride synthesis conditions. 
     As it is known that PCD composite compacts contain considerable residual stresses as a result of the high temperature/high pressure conditions used in their manufacture. Further, methods of mounting such compacts into drill bits, for example press fitting or brazing, can modify the stress distributions in the compacts. Additional stresses are imposed on the compacts during their use in applications such as drilling. Stresses may be introduced into the interface between the abrasive compact layer and the cemented carbide support. These stresses may be reduced or modified by providing a recess which extends into the cemented carbide support from the compact/carbide interface and which is filled with the abrasive compact. In the prior art, the recess has taken various shapes such as a plurality of concentric rings, a V-shaped recess, a cross-shaped recess, and a recess which incorporates a number of steps. A purpose in most of such designs is to reinforce and support the cutting edge by providing overall rigidity for the composite compacts. 
     U.S. Pat. No. 5,472,376 describes a tool component comprising an abrasive compact layer bonded to a cemented carbide substrate along an interface. A recess extends from the interface into the substrate and is filled with abrasive compact. The recess has a stepped configuration and is located entirely within the carbide substrate. 
     EP 356097 describes a tool insert comprising an abrasive compact bonded to a cemented carbide substrate. The abrasive compact is located in a recess formed in the substrate. The abrasive compact has a top surface which provides a cutting edge for the tool insert, a bottom surface complimentary to the base of the recess and a side surface at least partially located in the recess, the portion of the side surface located in the recess being complimentary to the side of the recess. The side surfaces may be sloping. 
     SUMMARY OF THE INVENTION 
     According to the present invention, an abrasive body, for use, for example, as a tool insert, comprises an abrasive layer bonded to a substrate along an interface and at least one strip-like abrasive projection extending from the interface into the substrate, the projection having a profile which includes a substantially flat central portion and surfaces to either side thereof which slope towards the interface. 
     More than one strip-like projection may be provided. Such projection or projections may extend from one peripheral surface of the abrasive body to an opposite peripheral surface. The projection or projections preferably have a surface coincident with a peripheral surface of the body. 
     In another form of the invention, three parallel strip-like projections are provided, the inner projection having a width greater than that of the outer projections. 
     In yet another form of the invention, the strip-like projection has an essentially U-form in plan. Preferably, the limbs of the U have ends coincident with an outer surface of the body. 
    
    
     BRIEF DESCRIPTION OF THE DRAWINGS 
     FIG. 1 is a plan view of a first embodiment of the invention, 
     FIG. 2 is a section along the line  2 — 2  of FIG. 1, 
     FIG. 3 is a section along the line  3 — 3  of FIG. 1, 
     FIG. 4 is a plan view of a further embodiment of the invention, 
     FIG. 5 is a section along the line  5 — 5  of FIG. 4, 
     FIG. 6 is a section along the line  6 — 6  of FIG. 4, and 
     FIG. 7 is a sectional side view of a further embodiment of the invention. 
    
    
     DESCRIPTION OF EMBODIMENTS 
     The abrasive body may have various shapes, but is preferably right circular cylindrical. 
     The substrate layer will typically be a cemented carbide substrate layer. The cemented carbide of the substrate may be any known in the art such as cemented titanium carbide, cemented tungsten carbide, cemented tantalum carbide, cemented molybdenum carbide, or mixtures thereof. As is known, such cemented carbides will typically have a binder content of 3 to 30% by mass. The metal binder will typically be cobalt, iron or nickel or an alloy containing one or more of these metals. 
     The abrasive layer will generally be an abrasive compact layer or a layer of diamond produced by chemical vapour deposition (CVD). When the abrasive layer is an abrasive compact layer, it will preferably be a diamond compact layer or a cubic boron nitride compact layer. 
     A first embodiment of the invention will now be described with reference to FIGS. 1 to  3 . Referring to these figures, there is shown an abrasive body comprising an abrasive compact layer  10  bonded to a substrate  12 , generally a cemented carbide substrate, along an interface  14  (see FIG.  2 ). The top surface  16  of the layer  10  provides an abrasive surface for the body and the peripheral edge  18  provides a cutting edge, remote from the interface. The interface  14  has portions  14   a  and  14   b  which slope relative to the surface  16  and central portions  14   c  and  14   d  which are parallel to this surface. All these portions of the interface  14  may, in an alternative embodiment, be parallel to the surface  16 . 
     The abrasive body is characterised, in particular, by the provision of three strip-like projections  20  of abrasive compact which extend from the interface  14  into the substrate  12 . These projections  20  extend from one peripheral side surface of the abrasive body to an opposite peripheral side surface. Thus, each projection has a surface identified as  22  and  24  coincident with a peripheral side surface of the abrasive body. 
     The profile i.e. the longitudinal cross-sectional shape, of the strips is best illustrated by FIG.  3 . Referring to this figure, it will not noted that the profile is such that there is a central flat section identified as  26  and surfaces  28 ,  30  to either side of the central section. The surfaces  28 ,  30  slope from the central section  26  to the interface  14 . 
     It will be noted from FIGS. 1 and 2 that the width in plan of the central strip-like projection is greater than that of the outer strip-like projections. This is a preferred configuration. Other configurations, e.g. in which the widths are the same, are possible. 
     A second embodiment of the invention will now be described with reference to FIGS. 4 to  6 . Referring to these figures, an abrasive body comprises an abrasive compact  100  bonded to a substrate  102 , particularly a cemented carbide substrate, along an interface  104 . The surface  106  of the abrasive compact layer  100  provides an abrasive surface for the body, while the peripheral edge  108  provides a cutting edge, remote from the interface. 
     An abrasive compact projection  110  extends from the interface  104  into the substrate  102 . This projection has an essentially U-shape in plan, as can be seen from FIG.  5 . The limbs of the U extend to the outer surface  112  of the abrasive body. Thus, the limbs have edge surfaces  114  coincident with the outer surface  112  of the body. 
     The profile of the projection  110  is illustrated from different directions by FIGS. 5 and 6. It will be noted from these figures that the profile is such that there is a central flat section  116  and surfaces  118  which slope from the central section  116  to the interface  104 . 
     The abrasive bodies described above may be made by methods known in the art. Generally this will involve providing a cylindrical shaped cemented carbide body having a recess, to receive the components necessary to make an abrasive compact, formed in one end thereof. An example of such a body, to produce an abrasive body of FIGS. 1 to  3 , is shown in FIG.  7 . Referring to this figure, a cemented carbide body  60  is of right-circular cylindrical shape having flat ends  62  and  64 . A recess  66  is provided in the end  62 . This recess is filled with the components necessary to make an abrasive compact. The thus produced unbonded assembly is placed in the reaction zone of a conventional high temperature/high pressure apparatus to form an abrasive compact of the components which bonds to the body  60 . The abrasive body illustrated by FIGS. 1 to  3  is produced by simply removing the sides of the body  60 , as illustrated by the dotted lines. However, the bonded body which is recovered from the reaction zone after compact formation and without removal of the carbide sides, may be used as a tool insert itself, and forms another aspect of the invention. In this form of the insert, the edge  70  will provide the cutting edge. This edge is likely to wear away fairly rapidly until the abrasive compact edge  72  is reached. Thereafter it is this edge  72  which provides the cutting edge for the component. 
     The provision of the strip-like projections in the abrasive bodies of the invention result in an effective reinforcement and support for the cutting edge by providing overall rigidity for the bodies. Further, in use the cutting edges in the regions of the surfaces  22 ,  24  of the projection for the FIGS. 1 to  3  embodiment and in the region of the surfaces  114  of the projection for the 
     FIGS. 4 to  6  embodiment will be employed. The extra abrasive available in these regions increases effectiveness of the abrasive action of the body.

Summary:
An abrasive body which includes an abrasive layer bonded to a substrate along an interface and at least one strip-like projection extending from the interface into the substrate. The projection has a profile which includes a substantially flat central portion and connecting surfaces to either side of the central section. The surface is sloped from the central section to the interface.