TH49513B - Abrasives with novel structures and grinding processes - Google Patents

Abstract

DC60 Bonded abrasives have a novel fluid-permeable porous structure, contain a relatively low volume percentage of bonded and acidic grains, and are relatively low hardness grades, but are characterized by excellent mechanical strength and grinding performance. Various processes for manufacturing bonded abrasives are described. Bonded abrasives have a novel fluid-permeable porous structure, contain a relatively low volume percentage of bonded and acidic grains, and are characterized by relatively low hardness and are characterized by excellent mechanical strength and grinding performance. Various processes for manufacturing bonded abrasives are described.

Claims (7)

Disclaimer (all) which will not appear on the advertisement page: EDIT 16/06/2015 1. A welded abrasive tool consisting of a three-dimensional component (a) 22-46% by volume of abrasive beads. Containing 4-20% by volume of inorganic binder, where the abrasive granules form a meshed network within the inorganic binder and where 10-100% by volume of the granules. The abrasive is in the form of a number of abrasive grains that are grouped together and (b) 40-68% by the amount of porosity connected within the meshed network. This creates a component that allows fluid to flow through a porous channel connected within it. Where the abrasive tools have a modulus of elasticity 25-50 GPs and the abrasive tools are welded. The solder has a minimum cracking speed of 4000sfpm (20.32 m / s). 2. The abrasive tool of the 1st claim, where the abrasive tool is brazed. It is a component polishing tool which consists of one part. And the second joint is joined together, the first part consisting of three-dimensional components of (a) and (b) and has a modulus of elasticity 25-50 GPa and a minimum rupture speed of 4000 sfpm. And where the second part consists of Welded clear tools 3. Welded abrasives of claim 2 where part one consists of a part. That the fluid can penetrate And the second part consists of a part that the fluid can penetrate And where the first part consists of the permeable portion which is at least 10% higher than the fluid permeable part of the second. 4.A bonded abrasive tool of claim 2, where part one consists of a degree Polishing is different from the degree of polishing of the second part. 5. Welded abrasives of claim 4 where part one consists of levels between A and M on the Norton Company's scale and the second part. Includes levels between B and N on Norton Company scale levels, part one including levels with Part II 6. Bonded abrasives of claim 2 where part one consists of at least approximately 50% by the amount of sanding in the form of a number of beads that Being gathered together With inorganic binders And which is not more than approximately 50% by volume of abrasive beads of the part Two are clustered 7.A bonded abrasive tool of claim 6, where the second part is made up of beads. Exfoliation that is not significantly clustered 8. Methods for slow-moving feeding abrasives, which include the procedure of (a) arrangement of a welded abrasive wheel that includes: The three-dimensional composition of (i) 22- 46% by volume of abrasives bonded to 4-20% by volume of inorganic binders, where the abrasive granules form the internal mesh. Inorganic binder, and where 10–100% by volume of abrasive granules is in the form of a number of granulated pellets, and (ii) 40-68% by volume of the pore being binded together. Connected within the net making network This creates a component that allows fluid to flow through a porous channel connected within it. Where the brazed machine has a modulus of elasticity 25-50 GPa and Minimum break 4000 sfpm (20.32 m / s) (b) Installation of brazed abrasives on sanders with slow motion feed. (c) turning the wheel and (d) bringing the abrasive surface of the wheel to contact with the workpiece for sufficient time to polish the workpiece. By which the workpiece material removal wheel at effective material removal rate And after sanding, the workpiece is truly free from thermal damage. 9. Method of claim 8 where the abrasive tools are brazed as abrasive tools. Component which consists of one part And the second joint is joined together, the first which is composed of the three-dimensional elements of (i) and (ii) and has a modulus of elasticity 25-50 GPa and a minimum rupture speed of 4000. sfpm and the second, which consists of a welded abrasive. Three dimensional interlocking And where step (d) continues, taking part one And the second part in Contact the workpiece for sufficient time to complete the angled sanding operation and partial sanding of the workpiece. -------------------------------------------------- -------------------------------------------------- -------------------------------------------------- --- 1. Bonded abrasive apparatus consisting of a three-dimensional compound of (a) phase one consisting of 24-48 vol% of grain, bonded abrasive with 10-38% vol% bond material. Is organic and is less than 10% volumes of porosity; And (b) the second phase consisting of 38-54 vol% of porosity; Where the second phase is a continuous phase within that compound And a built-in abrasive tool Bonds had the lowest burst velocity of 4000 sfpm (20.32 m / s). 2. The bonding abrasive apparatus of claim 1, where the first phase of the compound comprised 26-40% vol. Of grain. Bonding abrasive with 10-22 vol%, the bonding material is organic and less than 10 vol% of porosity and the second phase comprising 38-50 vol% of porosity. 3. The bonding abrasive tool. Of claim 1 where the first phase of this compound contains 24-42 vol% of bonded abrasive grain with 18-38 vol%, the bonding material is organic and the second phase is made up of 38- 54 vol% of porosity 4. The bonding abrasive tool of claim 1 where 10 to 100 vol% of different grains is applied to the first phase of this compound, in the form of grains. A large number of clumps 5. Bonding abrasive tool of claim 1 where the bonding abrasive tool is It is a compound bonded abrasive material. Partly And the second forms bonds together, the first one consists of a three-dimensional compound of the first phase, the second phase and at velocity. Minimum burst of 4000 sfpm and second part containing bonding abrasives 6. Bonding abrasive tool of claim 5, where the second part consists of the type. Abrasive substance structure This differs from the abrasive structure type of part one 7. Bonding abrasive apparatus of claim 6 where the abrasive structure type of the second part differs from the structural type of the second part. Use the scrubbing of part one. By at least one type of structure Numerical abrasive 8. Bonding abrasive apparatus of claim 6 where part one and part two have Capacity of abrasive grain And the difference in the abrasive grain capacity between the one part And the second part is at least approximately 4 vol.% 9. Bonding abrasive tool of claim 8 where the abrasive grain capacity is Of the second part is at least approximately 4 vol%% greater than the abrasive grain capacity of part 1 0. Bonding abrasive tool of claim 6 where the second part is porous which little 1. The bonding abrasive tool of claim 10, where the porosity of the second part is not Approximately 60 vol.% 1 2. The bonding abrasive apparatus of claim 11 where the porosity of the second part is not. Approximately 50 vol.% 1 3. The bonded abrasive tool of claim 6, where the second part consists of a density that differs from the thickness of the first. Use the bonded abrasion of claim 13 where the density of the first At least approximately 20% less than the thickness of the second part 1 5. Bonded abrasive tool of claim 5, where the second part consists of a grade. The abrasive agent is different from the abrasive grade of Part 1 6. Bonding abrasive apparatus of claim 15 where the abrasive grade of the part 1 is used for the bonding abrasive. One is not less than one abrasive grade is softer than the second abrasive grade 1 7. Bonded abrasive tool of claim 15, where the first part consists of grades between A and H on The Norton grade scale and the second part contains the grades B and I on the Norton grade scale, the part one contains at least one grade softer than the second 1. 8. The bonded abrasive tool of the wrist bond. The fifth right, where the second part contains materials Abrasive grain, which is different from the abrasive grain material of Part 1. 9. Bonding abrasive tool of claim 5, where the second part consists of the abrasive type. The bond differs from the bond type of part 2 0. The abrasive tool forms the bond of claim 19 where the second part consists of grain. Internal abrasives 2 1. Bonding abrasive tools of claim 20, where the second part consists of: Three-dimensional compound containing 45-52 vol% of grain, 10-38 vol% abrasive material, organic bonding material. And the porosity within the range of approximately 15-37 vol.% 2 2. The bonding abrasive tool of claim 19, where the second part consists of grain. Inorganic bond matrix 2 3. The bonding abrasive tool of claim 5 where the first and second part are Bonded abrasive materials together by material 2 4. Bonding abrasive tool of claim 5, where the second part forms part. It is also important with abrasive grains that do not clump together and are uniformly distributed within the bond material. 2. 5. Bonded abrasive tools of claim 5, where one part consists of Volume one And the second part contains the second volume Where the first volume is the same as Second volume 2 6. Bond-bond abrasive apparatus of claim 25 where the first volume is different from the second volume 2 7. The bond abrasive consists of a three-dimensional compound of (a ) 22-46 v% of grains, bonded abrasive with 4-20 v% inorganic bond material; And (b) 40–68 vol% of porosity which are linked between them; Where most of the abrasive grains exist as an irregularly spaced group. Inside a three-dimensional compound; Bonded abrasive tools have a modulus of elasticity which is at least 10% lower than the modulus of elasticity of conventional tools, similar to that with abrasive grain. Evenly spaced within the three-dimensional compound; And a bonding abrasive tool The minimum burst speed was 4000 sfpm (20.32 m / s). 2 8. The bonded abrasive apparatus of claim 27, where the three-dimensional compound contains 22-40% vol. Of abrasive grain. Bonding model with 8-14 vol% in organic bonding material and 40-64 vol% of porosity linked to each other 2. 9. Bonding abrasive tool of claim 27 where the three-dimensional compound consists of 34-42 vol.% Of grains, 6-12 vol% bonded abrasives in organic bonding materials and 46-58 vol% of interconnected porosity 3 0. Holds the 27th right where interconnected porosity is formed without increasing porosity inducing materials. During manufacturing, this compound is mostly free from high-ratio particles and grains, abrasive agents and fillers. 3 1. Bonded abrasive tools of claim 27 where abrasive tools are used. Build Bonding is a tool used to scrub compounds. That consists of one part And the second part forms a bond together, the one containing the three-dimensional compound of (a) and (b) and that has the modulus of Flexibility, which is at least 10% below the modulus of elasticity of conventional tools, is the same and the blow-off speed is as low as 4000 sfpm, and where the second part contains abrasive additives. Bonding Model 3 2. Bonding abrasive tool of claim 31 where the part consists of a The modulus of elasticity, which is not less than approximately 10% lower than the modulus of elasticity of the second, 3. 3. Bonded abrasive apparatus of claim 32 where the modulus of The flexibility of The first part is not less than approximately 25% lower than the modulus of elasticity of the second. 3. 4. Bonding abrasive apparatus of claim 31, where part one consists of. Liquid permeable condition And the second part contains liquid permeability and where the first part consists of permeability. Which is at least 10% higher than the liquid state Permeability of second part 3. 5. Bonding abrasive apparatus of claim 31 where part one contains abrasive grade which is different from abrasive grade of second part 3. 6. Bonded abrasive tools of claim 35 where part one contains at least an abrasive grade. One abrasive grade is softer than the second abrasive grade 3. 7. Bonding abrasive tool of claim 36 where part one contains grades between A and M on the company's grade scale. Norton and the second section contains grades between B and N on the Norton grade scale. Part one contains grades of at least one grade softer than the second. Where the second part consists of grain Inorganic bonding abrasives 3 9. Bonding abrasive tools of claim 38 where the second part consists of: Approximately 60 volumes of abrasive grain capacity% 4 0. Bonding abrasive tool of claim 31 where the second part contains Porosity that is not greater than approximately 65 vol.% Of porosity 4 1. The bonded abrasive tool of claim 31 where one part comprises at least approximately 50 vol% of the different grains. Lump together with inorganic fasteners And where not more than approximately 50 vol% of abrasive grain The second part is clumped into 4 groups. 2. Bonded abrasive tool of claim 41, where the second part is made up. Important with abrasive grains that do not clump together and are uniformly dispersed within the 4 bond material. 3. Bonding abrasive tool of claim 31 where the second part consists of grain. Internal abrasives 4 organic bonding materials 4. Method for circular rewinding that consists of steps of: (a) wheel arrangement, bonding abrasives. Containing three-dimensional compounds of (i) phase one consisting of 24-48 vol% of bonded abrasive grains, with 10- 38% vol%, the bonding material was organic and less than 10 vol% of porosity; And (ii) the second phase consisting of 38-54 vol% of porosity; Where the second phase is a continuous phase within that compound And a built-in abrasive tool Bonds had a minimum burst speed of 4000 sfpm (20.32 m / s); (b) mounting the bonded abrasive wheel on the surface grinding machine; (c) wheel rotation; And (d) bringing the grinding surface of the wheel into contact with the workpiece for a period of only Enough to rewind the workpiece; In that way, this wheel separates the workpiece material at an effective material separation rate. The grinding surface of this wheel remains for the most part free from the spinning pile. And after grinding Finished Most of this work is free from thermal damage. 5. Method for rewinding the circular disc of claim 44, where the built abrasive tool Bonding is a tool used to scrub compounds. That consists of one part And the second forms a bond together, the one containing the three-dimensional compound of (i) the first phase and (ii) the second phase, and with a minimum burst speed of 4000 sfpm, and the second containing the abrasive. The three-dimensional bonding pattern is applied, and where the steps (d) continue, one and two are exposed to the workpiece. This is the amount of time sufficient to complete the angle grinding operation. And rewind part of work piece 4 6. Process for fastening with a clamp feeding. That consists of the steps of (a) arrangement of a bonded abrasive wheel. Containing three-dimensional compounds of (i) 22-46 v% of grain, bonded abrasive with 4-20 v%, inorganic bond material; And (ii) 40–68 vol% of porosity which is linked between them; Where most of the abrasive grains exist as an irregularly spaced group. Inside a three-dimensional compound; Bonded abrasive tools have a modulus of elasticity which is at least 10% lower than the same modulus of elasticity of conventional tools with spaced abrasive grains. Evenly within the three-dimensional compound; And a bonding abrasive tool The minimum burst speed is 4000 sfpm (20.32 m / s); (b) installation of bonded abrasive wheels on clamp-fed machines; (c) wheel rotation; And (d) bringing the grinding surface of the wheel into contact with the workpiece for a period of time sufficient to rewind the workpiece; In that way, this wheel separates the workpiece material at an effective material separation rate. And after the rewinding Most of this work is free from thermal damage. 7. Procedure of claim 46, where the bonded abrasive tool is the first component of the compound abrasive. And the second part forms a bond together. Part one It consists of a three-dimensional compound of (i) and (ii) and has a modulus of elasticity which is at least 10% greater than the same modulus of traditional tool elasticity and speed. A minimal burst of 4000 sfpm and a second part containing a three-dimensional bonding abrasive, and where the step (d) is further compounded, the first and second parts are exposed to the workpiece as Sufficient time to complete the corner grinding operation. And rewinding parts of the workpiece