TH74419B - Bonded high temperature abrasive agent of chopped micron level alpha alumina. - Google Patents

Abstract

DC60 (28/01/51) High temperature bonded abrasives including alumina abrasive grids and glass-like bonding matrix. Where alumina abrasive grits were spread, glass-like bonding matrix with a curing temperature of at least 1000 ° C, alumina abrasive grits. This includes the polycrystalline alpha-alumina with a crystalline micro-structure that has been Characterized by the mean domain size of alpha-alumina not greater than 500nm and alumina abrasive grit, also including pinning agent, the dispersed phase. In alpha alumina that is polycrystalline Bonded abrasives at high temperatures, including grits, alumina abrasives, and glass-like bonding matrices. Where the alumina abrasive grit was spread, a glass-like bond matrix with a curing temperature of not less than 1000 ํ C, an alumina abrasive grit. This includes the polycrystalline alpha-alumina with a crystalline micro-structure that has been Characterized by the average domain size of alpha-alumina not more than 500nm and alumina abrasive grits, also including pinning agent, the dispersed phase. In alpha alumina that is polycrystalline

Claims (9)

Disclaimer (all) which will not appear on the advertisement page: edit 12/09/2018 1. An abrasive bonded at high temperature. This includes: grits for alumina abrasives and glass-like bond matrices. Where the grit for the alumina abrasive is Spread in it A glass-like bond matrix with a curing temperature of not less than 1000 (symbol) C, where a grit for alumina abrasives contains a polystyrene α alumina. Line Which has a fine crystal microstructure that has been characterized by its size The average domain of alpha alumina is not more than 500 nm, and where the grit for abrasive That is an alumina compound added with a pinning actuator In which the pining operators which combine With the cycle that is distributed in the alpha alumina that is polycrystalline ---------- 1. An abrasive bonded at high temperature. Which consists of Alumina abrasive grit and glass-like bond matrix, where alumina abrasive grits are diffused, glass-like bond matrix with temperature Curing not less than 1000 ° C where the alumina abrasive grit contains the structural α-alumina, polycrystalline. The crystalline micro scale was characterized by the average alpha domain size. Alumina not more than 500 nm, and where the alumina abrasive grit additionally consists - with a pinning agent. A pining agent consisting of a dispersed cycle in a polycrystalline alpha-alumina. 2. High temperature bonded abrasive agent of claim 1, in which pinning agent Contains a ceramic material which is an oxide, carbide, boride or nitride. This is with alpha alumina that is polycrystalline. And a combination of these 3. High temperature bonded abrasive agent of claim 2, where the pinning agent It is an oxide of at least one element from a group consisting of silicon, boron, titanium, zirconium, rare earth. The reaction of them with alpha-alumina as a polycrystalline and a combination of These 4. High temperature bonded abrasive agent of claim 3, where the agent is leaning. Contains zirconium oxide 5. High temperature bonded abrasive agent of claim 1, where the pinning agent Appears in an alumina abrasive grit at an amount of not less than approximately 0.1% by weight. 6. High temperature bonded abrasive agent of claim 5, where the pinning agent Appears in an alumina abrasive grit within the range of approximately 0.1 to approximately 20% by weight. 7. High temperature bonded abrasive agent of claim 6, in which pinning agent Appears in an alumina abrasive grit at an amount of not less than 0.1 to approximately 10% by weight. 8.A high temperature bonded abrasive agent of claim 1, in which the pinning agent The average particle size is not greater than about 5 microns. 9. High temperature bonded abrasive agent of claim 8, where the pinning agent has The average particle size is not more than approximately 1 micron 1. 0. High temperature bonded abrasive agent of Clause 9, where the pinning agent has The average particle size is not more than about 500 nm 1. 1. High temperature bonded abrasive agent of claim 1, in which abrasive grit That is alumina, the average crystal domain size is not greater than about 400 nm. 2. High temperature bonded abrasive agent of claim 11, where abrasive grit That is alumina, the average crystal domain size is not greater than about 300 nm 1 3. High temperature bonded abrasive agent of Clause 12, where the domain of Alpha alumina that is polycrystalline is a single crystal 1. 4. High temperature bonded abrasive agent of claim 13, where abrasive grit That is alumina, the average crystal domain size is not greater than 200 nm 1 5. High temperature bonded abrasive agent of claim 1, where abrasive grit That is alumina, the average crystal domain size is not greater than about 190 nm. 6. High temperature bonded abrasive agent of claim 1, where abrasive grit That is alumina, the average crystal domain size is not greater than about 180 nm. 7. High temperature bonded abrasive agent of claim 12, where abrasive grit Where alumina has a crystal stability of at least 1400 ํ C, where the crystal stability is The temperature at which the alumina abrasive grit was grown of the domain numbered by size - the average domain was not more than 500nm after 5 minutes of exposure at that temperature 1. 8. High temperature bonded abrasive agent of claim 17, where abrasive grit That is alumina, crystal stability is at least 1500 ํ C 1. 9. High temperature bonded abrasive agent of claim 1, where abrasive grit contains The abrasive index is not more than 15 μm where the corrosion index is the average depth of Si infiltration after exposure of the alumina abrasive grit to molten silica glass at 1250 ° C for 4. H 2 0. High temperature bonded abrasive agent of claim 19, where the abrasive-corrosion index is not greater than 10 μm 2. 1. High temperature bonded abrasive agent of claim 20, where the abrasive index is not more than 8 μm 2. 2. High temperature bonded abrasive agent of claim 1, in which the matrix binds That like glass has a curing temperature of not less than 1100 ํ C, a corrosion index of not more than 10 μm 2 3. High temperature bonded abrasive agent of claim 1, in which the matrix binds That is like a glass, the glass transition temperature Tg is not less than about 1000 ํ C 2 4. High temperature bonded abrasive of claim 23, where the glass-like bonded matrix has a glass transition temperature, Tg not less than approx 1100 ° C 2. 5. High temperature bonded abrasive of claim 24, where the glass-like bonded matrix has a glass transition temperature, Tg not less than approx. 1150 ° C 2. 6. An abrasive bonded at high temperature. Which consists of An alumina abrasive grit and a glass-like bond matrix, whereby an alumina abrasive grit is diffused, a glass-like bond matrix. Which has a curing temperature of not less than 1000 ° C where an alumina abrasive grit contains alpha alumina, a structural polycrystalline. The fine crystalline micro level is characterized by an average domain size of not more than 300 nm and where the alumina abrasive grit additionally contains a pinning agent. A pinning agent consisting of zirconium oxide sequences distributed in polystaline 2 alpha-alumina. 7.Method of formation of abrasive bonded at high temperature. Which consists of Formation of micro crystalline alpha-alumina abrasive grits by thermal treatment of alpha-alumina precursors with a rubbing agent at a temperature of not less than 1350. ํ C Formation of an alpha-alumina grit-like material with a glass-like bond matrix material and glass-like material heat treatment at curing temperature. The curing temperature is not less than 1000 ° C and above the melting point of the glass-like bonded matrix material. Alumina abrasive grit Which has the average size of the crystalline domain not more than 300 after heat treatment 2 8. High temperature bonded abrasive agent of claim 27, in which the substrate of Alpha alumina was thermally treated in the presence of crystal decoy 2. 9. High temperature bonded abrasive substance of claim 28, in which the crystalline It consists of alpha alumina crystals with a specific surface area of not less than 10 square meters / g3. 0. High temperature bonded abrasive substance of claim 28, where the crystals It consists of alpha-alumina crystals within a range of approximately 0.2 to approximately 20% by weight based on the solid content of the alpha-alumina substrate.