CN104148686A

CN104148686A - Ultrahard material clad sheet and substrate thereof

Info

Publication number: CN104148686A
Application number: CN201410376008.8A
Authority: CN
Inventors: 韩倩斐; 张颂; 李和鑫
Original assignee: Henan Funik Ultrahard Material Co Ltd
Current assignee: Henan Funik Ultrahard Material Co Ltd
Priority date: 2014-08-01
Filing date: 2014-08-01
Publication date: 2014-11-19
Anticipated expiration: 2034-08-01
Also published as: CN104148686B

Abstract

The invention relates to an ultrahard material clad sheet and a substrate thereof. The ultrahard material clad sheet comprises the substrate and an ultrahard material layer; each side surface of the substrate is provided with a junction surface which is fixedly combined with the ultrahard material layer; each junction surface is provided with a projection structure and/or a recess structure; the ultrahard material layer is fixedly combined to the substrate through the junction surfaces on the side surfaces of the substrate; portions, which are combined to the junction surfaces, of the ultrahard material layer are connected to one another; the junction area between the substrate and the ultrahard material layer can be large with the aid of the side surfaces of the substrate and the projection structures and/or the recess structures on the side surfaces of the substrate; the portions, which are combined to the junction surfaces, of the ultrahard material layer are connected to one another, the portion, which is positioned on a certain side surface, of the ultrahard material layer can be firmly combined with the substrate with the aid of the adjacent portion of the ultrahard material layer and can bear high stress, so that the junction surfaces between the substrate and the ultrahard material layer can be effectively prevented from cracking, and the substrate and the ultrahard material layer can be firmly combined with each other.

Description

Superhard composite materials and matrix thereof

Technical field

The present invention relates to Superhard composite materials and matrix thereof.

Background technology

Superhard material has very high intensity and good anti-wear performance, and such as polycrystalline diamond, cubic boron nitride or pottery etc. is often applied to the occasions such as drilling tool, blade.Whole polycrystalline diamond blade, whole cubic boron nitride blade and ceramic tip working region only have cutting edge position, the effect of support is only played at blade other positions except cutting edge in working angles, but polycrystalline diamond, cubic boron nitride material and ceramic material are done backing material and are had certain defect, its cost is high, matter is crisp, be difficult for fluting or perforate, so whole polycrystalline diamond, cubic boron nitride blade and ceramic tip generally do not arrange blade locating hole.And, because cutter after the cutting edge wearing and tearing of these integral knife blade will lose value, therefore can waste the raw materials such as a lot of diamonds or cubic boron nitride, do not meet the development trend of environment protecting and power-saving.

Superhard composite materials is generally by polycrystalline diamond, cubic boron nitride or ceramic material and carbide alloy sintering under high-temperature and high-pressure conditions forms, polycrystalline diamond, cubic boron nitride or ceramic material are as working lining, carbide alloy is as supporter, the two composite sheet being composited can have polycrystalline diamond concurrently, cubic boron nitride or ceramic material high rigidity, the high strength of high abrasion characteristic and carbide alloy, the features such as toughness, can be widely used in as composite blade the machining of hardness material and difficult-to-machine material, as hardened steel, high-alloy wear-resisting casting iron, high temperature alloy, high-speed steel, surface spraying weld material, the machining of the difficult-to-machine materials such as sintered metal materials.But, polycrystalline diamond, cubic boron nitride or ceramic material and carbide compound cutter are in sintering process, because the coefficient of expansion between bi-material is different, degree of wetting is not high, and the faying face between early stage bi-material is planar structure, therefore undesirable in conjunction with effect, faying face place easily produces cracking.Application number is 201120224121.6, Granted publication number discloses a kind of diamond hard alloy complex sheet for the Chinese patent of CN 202181849 U, comprise the matrix that carbide alloy is made and pass through high pressure-temperature sintering at the polycrystalline diamond layer of hard alloy substrate upper surface, described hard alloy substrate upper surface is provided with and is uniformly distributed and the protrusion element that staggers in front and back, make each protrusion element groove around spaced apart and be interconnected, this protrusion element can be tetragonous cone table, the frustum of a cone, cuboid, cylinder or positive hexagonal pyramid platform, thereby promoted to a certain extent the bond strength of hard alloy substrate and polycrystalline diamond layer, reduced stress, improve impact resistance.But because the coefficient of expansion between bi-material is different, the problem that degree of wetting is not high still exists, the bond strength of above-mentioned composite sheet and shock resistance are still very limited, still there will be the problem of faying face cracking.

Summary of the invention

The object of this invention is to provide a kind of Superhard composite materials that can effectively prevent the faying face cracking between matrix and superhard material, meanwhile, the present invention also provides a kind of matrix of Superhard composite materials.

The technical scheme that in the present invention, Superhard composite materials adopts is: Superhard composite materials, comprise matrix and ultra hard material layer, each side of described matrix all has for be combined fixing faying face with described ultra hard material layer, described faying face is the faying face that is provided with bulge-structure and/or sunk structure, the faying face of described ultra hard material layer by each side of described matrix be in conjunction with being fixed on matrix, and described ultra hard material layer is combined in the part on faying face described in each and interconnects.

Described faying face is the evagination faying face towards outer lug, between the evagination faying face on each side of described matrix, is connected smoothly.

The height of projection of described evagination faying face is less than the radius of corresponding matrix corresponding side surface or is less than half of the length of side of corresponding matrix corresponding side surface.

The whole outer surface of described matrix is faying face, and described matrix is covered by described ultra hard material layer completely.

Described matrix is provided with the blade locating hole that connects respective side, and the surface on described matrix except the aperture of blade locating hole is faying face.

In the present invention, the technical scheme of the matrix adopting of Superhard composite materials is: the matrix of Superhard composite materials, comprise for be combined fixing faying face with ultra hard material layer, each side of described matrix all has described faying face, described faying face is the faying face that is provided with bulge-structure and/or sunk structure, and the seamed edge of described bulge-structure or sunk structure is provided with chamfering.

The radial dimension of described bulge-structure or sunk structure is all not more than 10mm, and the spacing between adjacent protrusion structure and/or sunk structure is also not more than 10mm.

The present invention adopts technique scheme, each side of the matrix of Superhard composite materials all has for be combined fixing faying face with described ultra hard material layer, described faying face is the faying face that is provided with bulge-structure and/or sunk structure, described ultra hard material layer is fixed on matrix by the faying face combination on each side of described matrix, described ultra hard material layer is combined in the part on faying face described in each and interconnects, therefore, compared with prior art, between matrix and ultra hard material layer, can rely on each side of matrix and bulge-structure and/or the sunk structure on each side to there is larger bonded area, and ultra hard material layer is combined in described in each part on faying face and interconnects and can make the ultra hard material layer that is positioned at place, a certain side can rely on the ultra hard material layer being adjacent to be combined with matrix more firmly, bear larger stressed, thereby effectively prevent the faying face cracking between matrix and superhard material, form firmly combination.In addition, at the bulge-structure of matrix or the seamed edge of sunk structure, be provided with chamfering and can avoid occurring dead angle, thus the stress that effectively reduces to cause because of structural mutation concentrate, play better anti-cracking effect.

Accompanying drawing explanation

Fig. 1 is the cutaway view of the embodiment mono-of Superhard composite materials in the present invention;

Fig. 2 is A-A cutaway view of Fig. 1;

Fig. 3 is profile and the shape schematic diagram of sunk structure on the upper surface of matrix in Fig. 1 and lower surface; Also be the structural representation of the embodiment mono-of the matrix of Superhard composite materials in the present invention simultaneously;

Fig. 4 is A '-A ' cutaway view of Fig. 3;

Fig. 5 is the cutaway view of the embodiment bis-of the matrix of Superhard composite materials in the present invention, is also simultaneously the cutaway view of the matrix in the embodiment bis-of Superhard composite materials in the present invention;

Fig. 6 is B-B cutaway view of Fig. 5;

Fig. 7 is the profile enlarged diagram of the faying face projection structure of matrix in Fig. 5;

Fig. 8 is the cutaway view of the embodiment tri-of the matrix of Superhard composite materials in the present invention, is also simultaneously the cutaway view of the matrix in the embodiment tri-of Superhard composite materials in the present invention;

Fig. 9 is C-C cutaway view of Fig. 8;

Figure 10 is the faying face projection structure of matrix in Fig. 8 and the profile enlarged diagram of sunk structure;

Figure 11 is the cutaway view of the embodiment tetra-of the matrix of Superhard composite materials in the present invention, is also simultaneously the cutaway view of the matrix in the embodiment tetra-of Superhard composite materials in the present invention;

Figure 12 is D-D cutaway view of Figure 11;

Figure 13 is the profile enlarged diagram of the faying face projection structure of matrix in Figure 11;

Figure 14 is the cutaway view (bulge-structure and the sunk structure of matrix surface are not shown) of the embodiment five of Superhard composite materials in the present invention;

Figure 15 is E-E cutaway view of Figure 14.

The name that in figure, each Reference numeral is corresponding is called: 1 matrix, 11 bulge-structures, 12 sunk structures, 13 blade locating holes, 2 ultra hard material layers.

The specific embodiment

In the present invention, the embodiment of Superhard composite materials is just like shown in Fig. 1 ~ Fig. 4, it is the superhard material composite blade for field of machining, this superhard material composite blade is that cross section is circular circular shear blade, matrix 1 two parts of being made by ultra hard material layer 2 and carbide alloy form, matrix 1 is arranged on the center of ultra hard material layer 2, forms cored structure.The shape of matrix 1 approaches cylindric, and above having, lower surface and three sides of periphery, upper surface, lower surface and periphery are the evagination faying face of outside projection in the arc-shaped, between three, are connected smoothly; The intermediate sizes of evagination faying face on periphery on the axial direction of matrix 1 is greater than both sides size.On the upper surface of matrix 1 and lower surface, be equipped with the sunk structure 12 of irregular alignment, comprise coaxial ring-shaped depression and eight the radial depressions that are disposed radially that arrange of two circles, the width of radial depression is outwards increased gradually by the center of circle, upper surface and lower surface at matrix 1 isolate surface area region not of uniform size, region list area near the center of circle is little, surface area away from the center of circle is large, can guarantee the good combination of matrix 1 and ultra hard material layer 2; The periphery of matrix 1 is provided with the sunk structure 12 that is shaped as truncated cone.During manufacture, be used to form the consumption of the superhard material powder of ultra hard material layer 2 by control, the ultra hard material layer 2 that sintering is formed can be coated matrix 1 completely, and fixes by being provided with evagination faying face and matrix 1 combination of sunk structure 12.

In the present invention, the embodiment bis-of Superhard composite materials is as shown in Fig. 5 ~ Fig. 7, be with the difference of embodiment mono-: in the present embodiment, superhard material composite blade is that cross section is the diamond shaped insert of rhombus, matrix 1 has six sides such as upper surface, lower surface and four lateral surfaces, six evagination faying faces that side is outside projection in the arc-shaped and is connected smoothly each other.The bulge-structure 11 that is equipped with frustum of a pyramid shape on six sides of matrix 1, pyramid bus and baseline angle are less than 90 °, and small end outwardly.During manufacture, be used to form the consumption of the superhard material powder of ultra hard material layer 2 by control, the ultra hard material layer 2 that sintering is formed can be coated matrix 1 completely, and fixes by being provided with evagination faying face and matrix 1 combination of bulge-structure 11.

In the present invention, the embodiment tri-of Superhard composite materials shows as Fig. 8 ~ Figure 10, be with the difference of embodiment mono-: in the present embodiment, superhard material composite blade is that cross section is square square blade, matrix 1 has six sides such as upper surface, lower surface and four lateral surfaces, six evagination faying faces that side is outside projection in the arc-shaped and is connected smoothly each other.On six sides of matrix 1, be equipped with sunk structure 12 and the bulge-structure 11 of square column shape.During manufacture, by control, be used to form the consumption of the superhard material powder of ultra hard material layer 2, the ultra hard material layer 2 that sintering is formed can be coated matrix 1 completely, and fixes by being provided with evagination faying face and matrix 1 combination of sunk structure 12 and bulge-structure 11.

In the present invention, the embodiment tetra-of Superhard composite materials is as shown in Figure 11 ~ Figure 13, be with the difference of embodiment mono-: in the present embodiment, superhard material composite blade is that cross section is leg-of-mutton triangular blade, matrix 1 has five sides such as upper surface, lower surface and three lateral surfaces, five evagination faying faces that side is outside projection in the arc-shaped and is connected smoothly each other.The bulge-structure 11 that is equipped with truncated cone shape on five sides of matrix 1, element of cone and baseline angle are less than 90 °, and small end outwardly.During manufacture, be used to form the consumption of the superhard material powder of ultra hard material layer 2 by control, the ultra hard material layer 2 that sintering is formed can be coated matrix 1 completely, and fixes by being provided with evagination faying face and matrix 1 combination of bulge-structure 11.

The embodiment five of Superhard composite materials (bulge-structure and the sunk structure on matrix 1 surface are not shown) as shown in Figure 14 ~ Figure 15 in the present invention, be with the difference of embodiment tri-: in the present embodiment, finished product blade is provided with the blade locating hole 13 that connects upper surface and lower surface, during manufacture, by control, be used to form the consumption of the superhard material powder of ultra hard material layer 2, the surface except the corresponding part in the aperture with blade locating hole 13 on matrix 1 is all covered by described ultra hard material layer 2.Like this, after ultra hard material layer 2 is attached on matrix 1, can offer at an easy rate blade locating hole 13 at exposed carbide alloy core out, solve well the drawback around the difficult machining hole that in material and prior art, whole superhard material blade exists, fashionable dress easy to use clamps position.

Ultra hard material layer 2 in the various embodiments described above can be any one in polycrystalline cubic boron nitride body, diamond polycrystal and ceramic material.And the faying face that is used to form the matrix 1 of core in the various embodiments described above is the arc surface of outwardly convex, can in high pressure-temperature building-up process, reduce and superhard material between stress, improve the toughness of composite sheet, can also increase bonded area simultaneously.In addition, in the various embodiments described above, faying face is the faying face that is provided with equidistant equally distributed bulge-structure 11 or sunk structure 12, can play equally the effect that increases bonded area, improves adhesion, and the seamed edge at bulge-structure 11 or sunk structure 12 is provided with chamfering, avoid occurring dead angle, the stress that can effectively reduce to cause because of structural mutation is concentrated.For the crackle of avoiding better causing due to residual stress concentrations, bulge-structure 11 in the various embodiments described above or the radial dimension of sunk structure 12 are all not more than 10mm, spacing between adjacent protrusion structure 11 and/or sunk structure 12 is also not more than 10mm, in design process, can increase bulge-structure 11 as much as possible and/or the quantity of sunk structure 12, reduce the size of bulge-structure 11 and/or sunk structure 12, realize and increase specific area, improve the effect of actual bond strength; And the spread pattern of bulge-structure 11 or sunk structure 12 can be regularly arranged form, also can adopt irregular spread pattern.And the height of projection of evagination faying face is less than half of the radius of matrix 1 corresponding side surface or the length of side of matrix 1 corresponding side surface, can avoids producing stress when HTHP is synthetic and concentrate.

While manufacturing above-mentioned Superhard composite materials, first on each side of the matrix 1 for the manufacture of Superhard composite materials, process respectively above-mentioned for ultra hard material layer 2 in conjunction with fixing faying face, then the superhard material powder that is used to form ultra hard material layer 2 is looped around outside matrix 1, be placed in corresponding mould, and the part that superhard material powder is corresponding with faying face described in each is interconnected; Finally, by the superhard material powder around good and the common sintering of matrix 1, outside the formation with matrix 1 of matrix 1, by faying face, be combined fixing ultra hard material layer 2, obtain Superhard composite materials.By controlling the consumption of superhard material powder, can make matrix 1 be covered by completely in described ultra hard material layer 2, form as the composite blade in embodiment mono--embodiment tetra-; Or the surface except the aperture of blade locating hole 13 on matrix 1 is all covered by described ultra hard material layer 2, forms as the composite blade in embodiment five.

In the present invention, the embodiment of the matrix of Superhard composite materials is the matrix in the various embodiments described above, and concrete structure repeats no more herein.

In the above-described embodiments, the faying face on matrix 1 each side is the evagination faying face of outside projection in the arc-shaped, and faying face is provided with bulge-structure 11 or sunk structure 12.In other embodiments of the invention, faying face on matrix 1 each side can be also plane or other forms of faying face, waveform faying face for example, and the shape of faying face outwardly convex can be also other shapes, such as becoming dihedral projection, non-circular arc arc convex etc.In addition, bulge-structure 11 on faying face and/or sunk structure 12 also can save or be arranged to as required other shapes, such as hemispherical, regular pentagon prism shape, regular hexagon prism shape etc., and in other embodiments, the shape of Superhard composite materials can be also other shapes in ISO standard, can be also nonstandard cutter type.Moreover in other embodiments, the ultra hard material layer 2 corresponding with matrix 1 each side also can partly link together, and need not the transition position of matrix 1 each side is completely coated.

Claims

1. Superhard composite materials, comprise matrix and ultra hard material layer, it is characterized in that: each side of described matrix all has for be combined fixing faying face with described ultra hard material layer, described faying face is the faying face that is provided with bulge-structure and/or sunk structure, the faying face of described ultra hard material layer by each side of described matrix be in conjunction with being fixed on matrix, and described ultra hard material layer is combined in the part on faying face described in each and interconnects.

2. Superhard composite materials according to claim 1, is characterized in that: described faying face, for the evagination faying face towards outer lug, is connected smoothly between the evagination faying face on each side of described matrix.

3. Superhard composite materials according to claim 2, is characterized in that: the height of projection of described evagination faying face is less than the radius of corresponding matrix corresponding side surface or is less than half of the length of side of corresponding matrix corresponding side surface.

4. according to the Superhard composite materials described in claim 1 or 2 or 3, it is characterized in that: the whole outer surface of described matrix is faying face, and described matrix is covered by described ultra hard material layer completely.

5. according to the Superhard composite materials described in claim 1 or 2 or 3, it is characterized in that: described matrix is provided with the blade locating hole that connects respective side, and the surface on described matrix except the aperture of blade locating hole is faying face.

6. the matrix of Superhard composite materials, comprise for be combined fixing faying face with ultra hard material layer, it is characterized in that: each side of described matrix all has described faying face, described faying face is the faying face that is provided with bulge-structure and/or sunk structure, and the seamed edge of described bulge-structure or sunk structure is provided with chamfering.

7. the matrix of Superhard composite materials according to claim 6, is characterized in that: described faying face, for the evagination faying face towards outer lug, is connected smoothly between the evagination faying face on each side of described matrix.

8. the matrix of Superhard composite materials according to claim 7, is characterized in that: the height of projection of described evagination faying face is less than the radius of corresponding matrix corresponding side surface or is less than half of the length of side of corresponding matrix corresponding side surface.

9. according to the matrix of the Superhard composite materials described in claim 6 or 7 or 8, it is characterized in that: the whole outer surface of described matrix is faying face, and described matrix is covered by described ultra hard material layer completely.

10. according to the matrix of the Superhard composite materials described in claim 6 or 7 or 8, it is characterized in that: the radial dimension of described bulge-structure or sunk structure is all not more than 10mm, the spacing between adjacent protrusion structure and/or sunk structure is also not more than 10mm.