USRE35812E - Bonded abrasive grit structure - Google Patents
Bonded abrasive grit structure Download PDFInfo
- Publication number
- USRE35812E USRE35812E US07/845,603 US84560392A USRE35812E US RE35812 E USRE35812 E US RE35812E US 84560392 A US84560392 A US 84560392A US RE35812 E USRE35812 E US RE35812E
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- United States
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- particles
- grit
- particle
- brazing
- abrasive grit
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- Expired - Lifetime
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Images
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B24—GRINDING; POLISHING
- B24D—TOOLS FOR GRINDING, BUFFING OR SHARPENING
- B24D3/00—Physical features of abrasive bodies, or sheets, e.g. abrasive surfaces of special nature; Abrasive bodies or sheets characterised by their constituents
- B24D3/02—Physical features of abrasive bodies, or sheets, e.g. abrasive surfaces of special nature; Abrasive bodies or sheets characterised by their constituents the constituent being used as bonding agent
- B24D3/04—Physical features of abrasive bodies, or sheets, e.g. abrasive surfaces of special nature; Abrasive bodies or sheets characterised by their constituents the constituent being used as bonding agent and being essentially inorganic
- B24D3/06—Physical features of abrasive bodies, or sheets, e.g. abrasive surfaces of special nature; Abrasive bodies or sheets characterised by their constituents the constituent being used as bonding agent and being essentially inorganic metallic or mixture of metals with ceramic materials, e.g. hard metals, "cermets", cements
- B24D3/10—Physical features of abrasive bodies, or sheets, e.g. abrasive surfaces of special nature; Abrasive bodies or sheets characterised by their constituents the constituent being used as bonding agent and being essentially inorganic metallic or mixture of metals with ceramic materials, e.g. hard metals, "cermets", cements for porous or cellular structure, e.g. for use with diamonds as abrasives
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B24—GRINDING; POLISHING
- B24D—TOOLS FOR GRINDING, BUFFING OR SHARPENING
- B24D3/00—Physical features of abrasive bodies, or sheets, e.g. abrasive surfaces of special nature; Abrasive bodies or sheets characterised by their constituents
- B24D3/02—Physical features of abrasive bodies, or sheets, e.g. abrasive surfaces of special nature; Abrasive bodies or sheets characterised by their constituents the constituent being used as bonding agent
- B24D3/04—Physical features of abrasive bodies, or sheets, e.g. abrasive surfaces of special nature; Abrasive bodies or sheets characterised by their constituents the constituent being used as bonding agent and being essentially inorganic
- B24D3/06—Physical features of abrasive bodies, or sheets, e.g. abrasive surfaces of special nature; Abrasive bodies or sheets characterised by their constituents the constituent being used as bonding agent and being essentially inorganic metallic or mixture of metals with ceramic materials, e.g. hard metals, "cermets", cements
Definitions
- the present invention relates to abrasive grit structures used in the grinding and shaping of various materials.
- Abrasive grit tool structures such as grinding wheels and the like conventionally have an outer grit particle surface which is used to remove pieces of a workpiece for shaping and finishing a workpiece.
- abrasive grits have been attached to tool surfaces by placing a single layer of grit particles on a tool form and then bonding the grits to the tool by using a brazing metal or by an electroplating coating which grips the grit particles.
- These structures along with other types of structures have the disadvantage in that the resulting tool may have grits of widely varying heights, erratic grit edges, flat spots or other irregular surfaces which tend to present an uneven grinding surface to the workpiece.
- the desired effect is to present the abrasive grits to the workpiece at an even level in order to most effectively shape the workpiece.
- many of the prior structures have failed to meet this goal.
- the electroplated structures have generally used a nickel metal for the electroplating of the metal substrate in order to hold the grit
- the electroplated layer used in these structures generally had to be of a depth such that the metal would build up on the sides of the grits (i.e. the formation of a meniscus) in order to provide a mechanical grip around the grit particles. This mechanical grip was required because there was generally little or no chemical binding or alloying between the grit particles, particularly diamonds, and the metal material.
- Brazing materials such as nickel-chromium alloys which form chromium carbide bonds with diamond particles were also used. Because the stresses and strains imposed on such a structure (particularly when the diamond particles are close to or in contact with a steel substrate) tended to break the chromium carbide bond during cooling, it has generally been required in the past to have such a mechanical gripping bond even when using these types of alloys.
- Diamonds have long been used and are preferred in the art as a grinding grit particle. Because of the nature of diamonds it is hard to create a structure whereby a diamond can be held or bonded to a surface in such a manner that it will not break off during the grinding process. Therefore, it has been a problem in grinding wheels using diamond grits that while initially the diamond grinding wheel worked relatively well, after a period of use the diamond grit particles would eventually break away from the substrate structure. This would reduce the number of actual cutting grit particles which were available to shape or form the workpiece thereby foreshortening the useful life of the tool.
- an abrasive grit structure which may be selectively and securely attached to a substrate tool structure without the use of high pressure or other complex manufacturing methods as was sometimes necessary in the prior art.
- a grinding tool can be produced at a reduced cost.
- the present invention also has the advantage of allowing for efficient use of the grit structure by placing the grit particles in a homogeneous and level pattern wherein each of the grits are configured at substantially the same plane in the final tool surface.
- the structure of the present invention provides a final grit structure whereby it is substantially ensured that each grit will contact and effectively cut the surface to be ground.
- the present invention also allows space between the grit structures which inhibits clogging between the structures whereby the grinding tool life will be extended.
- the present invention also has the advantage that the diamond or other hard grit like constituent is securely held by the surrounding structure such that it will have a greater bonded life expectancy than such structures produced in the past.
- a bonded abrasive grit structure which is selectively attachable to a tool surface.
- the structure includes a plurality of peaked portions on a substrate layer with the peaked portions each having an apex and a base portion. Each of the peaked portions has at least one abrasive grit particle at the apex or others near the apex.
- the abrasive grit particle is substantially surrounded in the apex by a setting material.
- the remainder of the structure comprises a particulate matter having a melting point temperature higher than a predetermined temperature (higher than a melting point of a brazing compound to be used in the present invention).
- a flexible hydrocarbon resin binder is dispersed throughout the structure for temporarily binding together the abrasive grit particles, the setting material and the particulate matter.
- the hydrocarbon resin binder is volatizable and drivable from the structure at a first relatively low predetermined temperature.
- the structure is brazable to a tool surface by the infiltration of a brazing material therethrough and onto the tool surface at a second higher temperature which is lower than the melting point of the particulate material.
- FIG. 1 is a fragmentary plan view of a portion of a molding surface used to produce the abrasive grit structure made in accordance with the teachings of the present invention
- FIG. 2 is a section view of a portion of the molding surface of FIG. 1 showing a typical abrasive peak, the section being taken along a lateral section of a representative peak;
- FIG. 3 is a fragmentary plan view of the grit surface produced in accordance with the teachings of the present invention and using the mold of FIG. 1;
- FIG. 4 is a fragmentary plan view of the molding surface used to produce an alternate embodiment of the abrasive grit structure produced in accordance with the teachings of the present invention
- FIG. 5 is a section view of a peak produced in a mold of FIG. 4, the section being taken along a lateral section of a representative peak;
- FIG. 6 is a fragmentary plan view showing an alternate embodiment of a molding surface for producing an abrasive grit structure made in accordance with the teachings of the present invention
- FIG. 7 is a section view of an alternate embodiment of an abrasive grit structure produced in the mold of FIG. 6, the section being taken along a lateral section through the apex of a representative peak;
- FIG. 8 is a fragmentary plan view of the abrasive grit structure formed by the use of the mold shown in FIG. 6;
- FIG. 9 is a fragmentary view of an alternate embodiment of the mold for producing an abrasive grit structure according to the present invention which produces an abrasive grit surface having parallel rows of grit teeth similar to a file-like configuration;
- FIG. 10 is a section view showing a further embodiment of an abrasive grit structure made in accordance with the teachings of the present invention whereby the grit particles are arranged with longitudinal axes in substantially parallel relationship;
- FIG. 11 is a side view of a typical grinding tool having the abrasive grit structure of the present invention attached thereto;
- FIG. 12 is a section view taken along lines 12--12 of FIG. 11 showing the abrasive grit structure of the present invention preliminarily attached to a tool;
- FIG. 13 is a view similar to that of FIG. 12 after the abrasive grit structure has been permanently brazed to the tool surface;
- FIG. 14 is a cross-sectional view of a further alternate embodiment of the present invention in a binder wherein the structure exposes a part of the grit particle during subsequent brazing;
- FIG. 15 is a section view of the grit structure of FIG. 14 after brazing thereof.
- an abrasive grit structure 10 which is selectively attachable to a tool surface 12.
- the abrasive grit structure 10 comprises a plurality of peak portions 14. Each of the peak portions includes an apex portion 16 and a base portion 18. The peaks are substantially the same height such that the peaks are co-planar. At least one abrasive grit particle 20 is provided at each apex 16. The abrasive grit particle 20 is substantially surrounded by a particle setting matrix 17.
- the particle setting matrix may include a setting material 22 which substantially surrounds the grit particle 20 in and around the apex 16 and a second particulate matter 24 substantially filling the remainder of the peak portion 14.
- Particulate matter 24 has a melting point temperature which is higher than a predetermined value and in the preferred embodiment of the present invention the melting temperature is higher than the melting point of a brazing alloy used to bond the constituents together.
- a flexible hydrocarbon resin binder 26 is dispersed throughout the structure 10.
- the resin binder 26 is for temporarily binding together the abrasive grit particle 20, the setting material 22 and the particulate matter 24 and for retaining these constituents in their respective positions for later positioning on a tool structure 12.
- the hydrocarbon resin binder 26 is volatile such that it may be driven from the structure at a first relatively low predetermined temperature.
- the structure 10 is brazable to a tool surface 12 by the infiltration of a brazing material therethrough and onto the tool surface at a second higher predetermined temperature which is lower than the melting point of the particulate material.
- Abrasive grit particles 20 to be used in the present invention may be of any kind of metal carbide, boride grits or grits which are harder than metal carbides and up to and including a diamond like hardness.
- various cast or sintered metal carbide grits may be suitably used in the present invention and also, harder grits such as cubic boron nitrite, polycrystalline diamond or natural diamond grits can be used in the present invention, preferably a diamond grit particle may be used.
- the setting material 22 consists of a material which will provide adequate strength for holding the particle in the structure such as by chemically bonding with the brazing material. In the preferred embodiment of the invention where a diamond or like hard particle is used, the setting material 22 is a fine metal carbide powder.
- the setting material 22 is selected such that it may be easily wetted by a brazing compound used in the final brazing of the structure of the present invention. Suitable setting materials are commercially available and are known to those skilled in the art. It has been found that a d.s.p. number 50 setting compound made by Wall Colmonoy Company of Detroit, Mich., would be useful in the present invention.
- the particulate matter 24 may be of the same material as used in the setting powder 22 such as a metal carbide grit particle material but which particles are larger in size than the powder particles.
- the particulate material used for layers 22 and 24 may be the same in size and composition and may have a particle size of from about 100 mesh to about micron sized particles.
- a tungsten carbide particle material is used. Particles of crushed cast or sintered tungsten metal group carbides, chromium carbides, chromium borides or a mixture thereof which may also include diamond particles could also be used.
- the size of the particles used in particulate matter 24 is preferably a 325 mesh or larger particle.
- the particulate matter useful in the present invention is selected with two factors in mind.
- the first factor is that the material is wettable with the type of brazing material to be used.
- the particles also must be substantially non-melting up to and past the temperature for melting of the brazing material used.
- particles which form the primary constituents of the setting powder 22 and particulate matter 24, are referred to as substantially non-melting constituents of the present invention. It is preferable that particles generally will not melt up to temperatures of about 2150° F. which is at or above the melting temperature of the preferred nickel chromium alloy used in the present invention.
- a metal carbide such as a tungsten carbide particle is preferred in that the nickel chromium alloy will form a chromium carbide bond to these metallic particulate structures which will strengthen and provide a durable substrate structure and matrix for securely holding the diamond particle 20 in the subsequent structure.
- brazing compounds which contain metals for forming metal carbide bonds with diamonds or like hardness grit particles may be used in the present invention.
- Tungsten group metal carbide particles are particularly suitable as the coefficient of expansion is more near that of a diamond or diamond like hardness material. This allows the tungsten carbide particulate material to act as a "buffer" between the steel tool surface and the diamond particle
- This tungsten carbide particulate material advantageously acts to prevent the chemical bond breaking of the chromium-carbide bond of conventionally brazed structures.
- a final brazed structure having superior bonded strength is formed in the present invention.
- cubic boron nitride particles which do not contain carbon may be used. While such particles may not form chemical bonds with the brazing compounds to be used, these particles will be used to surround the grit particle 20 and will provide a close mechanical grip in the subsequent product.
- the particulate matter 24 may be used to fill the mold indentations to form peaks 14 by filling same up to and even with the base 18 of the peaks 14.
- the mold may be filled above the base to create a substrate layer 27. If the peaks 14 are filled to the base 18, the peaks 14 may be applied to the tool surface directly from the mold by placing a binder or adhesive layer 32 on the tool surface and applying the mold containing the peaks 14 of the grit structure thereon and then removing the mold leaving a tool surface with the abrasive grit peaks 14 adhered thereto. Alternatively, the peaks 14 may be individually separated and individually applied to a tool surface. This structure may then be brazed into a tool structure as set forth below.
- the substrate layer 27 provides a backing material such that the grit structure may be removed from the mold surface as a sheet and then applied to the tool structure at a later period of time, or alternatively, the grit structure may be removed and the peaks 14 broken apart to allow individual attachment to a tool surface.
- the binder 26 which is provided to temporarily bond the particle 20, the powder matrix 22, and the particulate matter 24 in the structure of the present invention may be of a hydrocarbon binder type.
- the subsequent cured product is preferably flexible to facilitate application to varying shape tool substrates at a later time and therefore, a flexible type binder is preferred for use in the present invention
- a binder which cures to a stiff type consistency it is preferable to use a binder which cures to a stiff type consistency.
- Acrylic type binders are generally preferred, however, any suitable solvent soluable hydrocarbon material may be used.
- a molding surface is provided to create a mold 28 for the peaks in which the structure is created.
- the mold 28 preferably has a surface having shaped indentations 30 therein for producing the grit structure of the present invention.
- the mold 28 may be configured in any form which is advantageous to form a grit structure as long as the indentations are substantially the same height such that they are presented in the mold surface along substantially the same plane.
- the mold is in the form of a rectangular planar structure such that rectangular sheets of a grinding structure are produced.
- the indentations are preferably formed in a pyramidal shape in one embodiment which produces a "green" product when bound with the acrylic binder having a series of pyramidal peaks.
- the mold structure 128 may be formed to produce a pimpled grit structure as shown in FIG. S.
- the mold 228 may be a truncated pyramidal shape to produce the truncated peak "green" structure of FIG. 8, or as shown in FIG.
- mold 328 may have rows of sharp indentations 330 to produce a final file-like grit structure having rows of parallel file-like teeth.
- the structure may be fully planar and may be produced on a flat surface without departing from the scope of the present invention.
- other grit structure shapes such as rows of round top furrows, channel edges, hemispheres and the like may be formed and are within the scope of the present invention, the only criteria being that the shapes formed must be removable from the mold surface.
- the mold is preferably produced from a mating suitably machined male surface using a suitable elastomeric compound such as a silicon rubber material or the like.
- FIGS. 4 and 5 An alternate embodiment such as that shown in FIGS. 4 and 5 may be advantageous in applications where it is desired that a series of grit particles rather than a single particle are advantageously presented in substantially the same plane at each peak in order to ensure the grit particles contact workpiece along the same plane or circle during use and providing for longer wear life of the structure such that as the apex portion wears down, the grit particles to either side thereof will contact the work surface.
- a series of grit particles 120 are provided at the peak 116 and therein covered by the setting material 122 and the particulate material 124.
- a plurality of grit particles 220 are placed at the apex 216 and thereafter covered with a setting material 222 and a particulate material 224.
- a binder 226 is interspersed therethrough. This produces the green structure as shown in FIG. 8 wherein the peaks 214 each have a series of grit particles 220 at their apexes.
- Also provided in the present invention is a process for preparing a bonded abrasive grit structure which is adaptable for brazing to a tool substrate.
- the method of the present invention includes the following steps to produce the abrasive grit structure herein.
- a planar mold member of the like described above is provided which has a plurality of concave indentations therein.
- at least one grit particle is placed in the apex of each of the concave indentations.
- the concave indentation is then partially filled with a diamond setting powder to a level which covers the diamond grit particle.
- the remainder of the indentation is filled with a particulate material as described above and compacted therein in any suitable manner to reduce the voids present therein.
- the particles may be compacted by vibration of the mold containing the matrix which allows the matrix to settle and compact.
- the size of the particulate materials used for the setting powders and particulate material constituents are selected such that they may be compressed by such vibration as opposed to the use of pressure which is necessary for very fine powders such as micron or sub micron size powders.
- the use of a diamond setting powder is preferred, the present invention may also be practiced by the use of the coarser tungsten carbide particulate matter without deviating from the scope of the present invention. It is believed that a particle size of from about 100 mesh to micron sized particles are suitable for use in the present invention.
- the particular particle size used is selected for its compatability with the size of the abrasive grit particle used.
- the indentations are then saturated with a flexible acrylic binder which provides for adhering the particle structure together when cured.
- the binder is volatilizable such that it may be later released or driven off from the structure upon heating of the structure for replacement with a brazing compound.
- the binder is then cured and then the composite structure is then removed from the mold surface.
- the product obtained from the steps above may then be advantageously formed into an integral grinding tool as shown in FIG. 11 by the following steps.
- First the structure as formed above is adhered to a tool surface 12 by a tacky adhesive 32 with the diamond grit particles 20 facing outward. This forms a tool grit structure assembly 34.
- a brazing compound 36 is then applied to the outer surface of the structure.
- the assembly with the structure attached is then heated at a controlled rate to an effective temperature for driving off the binder.
- the temperature is then raised to a second effective temperature which is below the temperature of the melting point of the particulate material 24. This melts the brazing compound 36 allowing the braze metal to infiltrate the structure displacing any of the remaining binder 26.
- the structure of the present invention may be initially applied and adhered to the tool surface by use of the binder which is used to initially hold the structure together.
- the flexible nature of the structure allows it to be easily applied around the circumference of a circular tool structure or otherwise applied to various contoured tool shapes and thereafter brazed by the above steps onto the tool by merely heating the tool as set forth above with the grit structure attached.
- the individual peaks may be broken apart after infiltration of the binder to form individual peaks which can be thereafter arranged and brazed to a substrate tool surface.
- the structure can also be partially brazed such that the individual particles are brazed together and then the peaks could be broken apart, attached and further brazed to the tool surface.
- a planar or shaped tool may be formed by following the brazing step without the presence of the tool thereby creating from the bonded grit structure a flat planar type tool which has a brazing surface on one side thereof.
- other configurations may be formed such as an abrading tool having abrading surfaces on both sides.
- abrading surfaces could be applied or used in any combination of the present invention to form tools with various types of grinding surfaces.
- a planar grit structure 410 may be formed wherein the diamond particles 420 are aligned such that the longitudinal axis 411 of the diamond particles are aligned in generally parallel relationship and which longitudinal axes are generally perpendicular to the plane of the mold surface 428. This allows the individual grit particles to be positioned with their length extending perpendicularly to or radially toward the workpiece, providing for a more useful and longer wearing structure.
- the embodiment of FIG. 10 is similar to that in the above structures, however, in this embodiment, the diamond particles or grit are coated with a magnetic powder coating 421 and the particles are placed on a flat planar surface such as glass surface 428.
- grit particles may be used which are made of a magnetically interactive material.
- a magnet 431 is then placed below the glass surface with either the north pole or south pole of the magnet facing the glass surface. With this arrangement the axis passing through the lengthwise dimension of the particles is perpendicular to the plane of the glass surface. While any substance can be used which is of sufficiently fine particle size and will interact magnetically with the magnet to align these diamonds, a fine magnetic iron oxide powder is presently preferred.
- the structures above are new and novel constructions for securing grit structures in a controlled, planar and even fashion in a tool grit structure.
- the construction may be produced wherein the diamond particles of this embodiment are further exposed and extend out of the surface of the structure after the brazing or heating of the structure to the tool surface. This provides even greater areas of the grit particles to be exposed for grinding while retaining the evenness of the grit particles.
- the grit structure of this embodiment is produced as follows.
- the diamonds 520 are first placed in the mold as disclosed above.
- a layer 536 of a material which can be later displaced into the structure or displaced by being driven from the structure is used.
- the layer 536 which may be of brazing material or volatilizable hydrocarbon resin is first placed into the mold to a point less than about half of the height of the diamond particles.
- the remainder of the mold is filled as disclosed above either with a first layer of a metal carbide powder setting material 522 thereafter followed by a layer of larger particulate metal carbide matter 524 as disclosed above.
- the resin binder 526 is applied to infiltrate the entire structure and initially bind it together for later application to a tool.
- This embodiment allows the brazing material to be included within the structure.
- the structures may be then applied to the tool and heated as disclosed above to drive off the volatilizable resin material and allow the brazing compound to infiltrate and bind together the tool and the grit structure.
- the brazing material of layer 536 will infiltrate into the structure thereby leaving the space of layer 536 where it previously had taken up in the structure. This exposes the diamonds 520 or grit particles to the extent of the layer 536 of the brazing materials or resin.
- this structure provides a new and advantageous structure which allows the diamond particles to be securely held on the one hand and yet allows substantial portions of their cutting surfaces to be exposed for greater contact with the work surface and therefore, greater shaping of the surface.
- the grit structures of the present invention allow the final structure to have grit cutting particles at a substantially even height.
- the resulting structure presents the grit particles to the workpiece at substantially the same level thereby providing efficient grinding of the surface.
- the structures of the present invention may be manufactured in resin bonded sheets which can be stored or immediately attached to the desired tool surface.
- the grit structures of the present invention may be easily attached to the substrate tool via conventional brazing ovens employing a suitable reducing atmosphere without the necessity of costly use of pressurized molds.
Landscapes
- Chemical & Material Sciences (AREA)
- Engineering & Computer Science (AREA)
- Ceramic Engineering (AREA)
- Inorganic Chemistry (AREA)
- Mechanical Engineering (AREA)
- Polishing Bodies And Polishing Tools (AREA)
Abstract
Description
Claims (32)
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US07/845,603 USRE35812E (en) | 1988-08-01 | 1992-03-04 | Bonded abrasive grit structure |
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US07/226,442 US4916869A (en) | 1988-08-01 | 1988-08-01 | Bonded abrasive grit structure |
US07/845,603 USRE35812E (en) | 1988-08-01 | 1992-03-04 | Bonded abrasive grit structure |
Related Parent Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US07/226,442 Reissue US4916869A (en) | 1988-08-01 | 1988-08-01 | Bonded abrasive grit structure |
Publications (1)
Publication Number | Publication Date |
---|---|
USRE35812E true USRE35812E (en) | 1998-06-02 |
Family
ID=22848924
Family Applications (2)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US07/226,442 Ceased US4916869A (en) | 1988-08-01 | 1988-08-01 | Bonded abrasive grit structure |
US07/845,603 Expired - Lifetime USRE35812E (en) | 1988-08-01 | 1992-03-04 | Bonded abrasive grit structure |
Family Applications Before (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US07/226,442 Ceased US4916869A (en) | 1988-08-01 | 1988-08-01 | Bonded abrasive grit structure |
Country Status (1)
Country | Link |
---|---|
US (2) | US4916869A (en) |
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