Boron Carbide #150 (AD0010)
Boron Carbide is a high performance abrasive material with chemical and physical properties similar to diamond. Boron Carbide has high chemical resistance and hardness utilized mainly for grinding.
Boron Carbide #240 (AD0016)
Boron Carbide is a high performance abrasive material with chemical and physical properties similar to diamond. Boron Carbide has high chemical resistance and hardness utilized mainly for grinding.
Boron Carbide #280 (AD0018)
Boron Carbide is a high performance abrasive material with chemical and physical properties similar to diamond. Boron Carbide has high chemical resistance and hardness utilized mainly for grinding.
Boron Carbide #320 (AD0020)
Boron Carbide is a high performance abrasive material with chemical and physical properties similar to diamond. Boron Carbide has high chemical resistance and hardness utilized mainly for grinding.
Boron Carbide #360 (AD0021)
Boron Carbide is a high performance abrasive material with chemical and physical properties similar to diamond. Boron Carbide has high chemical resistance and hardness utilized mainly for grinding.
Boron Carbide #400 (AD0022)
Boron Carbide is a high performance abrasive material with chemical and physical properties similar to diamond. Boron Carbide has high chemical resistance and hardness utilized mainly for grinding.
Boron Carbide #400 Washed (AD0022W)
Boron Carbide is a high performance abrasive material with chemical and physical properties similar to diamond. Boron Carbide has high chemical resistance and hardness utilized mainly for grinding. The washed version is water classified for a tighter particle size distribution and less impurities.
Boron Carbide #500 (AD0024)
Boron Carbide is a high performance abrasive material with chemical and physical properties similar to diamond. Boron Carbide has high chemical resistance and hardness utilized mainly for grinding.
Boron Carbide #60 (AD0002)
Boron Carbide is a high performance abrasive material with chemical and physical properties similar to diamond. Boron Carbide has high chemical resistance and hardness utilized mainly for grinding.
Boron Carbide #600 (AD0026)
Boron Carbide is a high performance abrasive material with chemical and physical properties similar to diamond. Boron Carbide has high chemical resistance and hardness utilized mainly for grinding.
Boron Carbide #600 Washed (AD0026W)
Boron Carbide is a high performance abrasive material with chemical and physical properties similar to diamond. Boron Carbide has high chemical resistance and hardness utilized mainly for grinding.
Boron Carbide #800 (AD0028)
Boron Carbide is a high performance abrasive material with chemical and physical properties similar to diamond. Boron Carbide has high chemical resistance and hardness utilized mainly for grinding.
Boron Carbide #800 Washed (AD0028W)
Boron Carbide is a high performance abrasive material with chemical and physical properties similar to diamond. Boron Carbide has high chemical resistance and hardness utilized mainly for grinding. The washed version is water classified for a tighter particle size distribution and less impurities.
Diamond Compound OS (DJ OS Series)
Diamond Compound Oil-Soluble, available in poly and monocrystalline options, is designed for lapping and polishing of sapphire, ceramics, and hardened steels capable of providing extremely fine finishes. Diamond Compound Oil-Soluble also enhances cut rate to provide aggressive cutting in lapping applications. This compound is made using highly refined and precision-graded diamond powders that have high bulk purity, high surface purity, and controlled impact strength crystals.
Hastilite Ditron 0.10 (BC1400)
Hastilite Ditron is a water based monocrystalline and alpha alumina slurry that is used in the polishing of hard materials, and crystals. Superior surface finishes can be produced on electronic components and parts made of tungsten carbide, silicon carbide, and other ceramic materials. The addition of highly refined and precision graded diamond powder with nanometer sized alpha alumina creates a slurry that can polish hard materials efficiently at a cost driven advantage.
Hastilite Ditron S has enhanced suspension for where thicker slurry is desirable such as brush feeding.
Hastilite Ditron 0.25 (BC1401)
Hastilite Ditron is a water based monocrystalline and alpha alumina slurry that is used in the polishing of hard materials, and crystals. Superior surface finishes can be produced on electronic components and parts made of tungsten carbide, silicon carbide, and other ceramic materials. The addition of highly refined and precision graded diamond powder with nanometer sized alpha alumina creates a slurry that can polish hard materials efficiently at a cost driven advantage.
Hastilite Ditron S has enhanced suspension for where thicker slurry is desirable such as brush feeding.
Hastilite Ditron 0.5 (BC1402)
Hastilite Ditron is a water based monocrystalline and alpha alumina slurry that is used in the polishing of hard materials, and crystals. Superior surface finishes can be produced on electronic components and parts made of tungsten carbide, silicon carbide, and other ceramic materials. The addition of highly refined and precision graded diamond powder with nanometer sized alpha alumina creates a slurry that can polish hard materials efficiently at a cost driven advantage.
Hastilite Ditron S has enhanced suspension for where thicker slurry is desirable such as brush feeding.
Hastilite Ditron 1.0 (BC1403)
Hastilite Ditron is a water based monocrystalline and alpha alumina slurry that is used in the polishing of hard materials, and crystals. Superior surface finishes can be produced on electronic components and parts made of tungsten carbide, silicon carbide, and other ceramic materials. The addition of highly refined and precision graded diamond powder with nanometer sized alpha alumina creates a slurry that can polish hard materials efficiently at a cost driven advantage.
Hastilite Ditron S has enhanced suspension for where thicker slurry is desirable such as brush feeding.
Hastilite Ditron 12.0 (BC1410)
Hastilite Ditron is a water based monocrystalline and alpha alumina slurry that is used in the polishing of hard materials, and crystals. Superior surface finishes can be produced on electronic components and parts made of tungsten carbide, silicon carbide, and other ceramic materials. The addition of highly refined and precision graded diamond powder with nanometer sized alpha alumina creates a slurry that can polish hard materials efficiently at a cost driven advantage.
Hastilite Ditron S has enhanced suspension for where thicker slurry is desirable such as brush feeding.
Hastilite Ditron 15.0 (BC1411)
Hastilite Ditron is a water based monocrystalline and alpha alumina slurry that is used in the polishing of hard materials, and crystals. Superior surface finishes can be produced on electronic components and parts made of tungsten carbide, silicon carbide, and other ceramic materials. The addition of highly refined and precision graded diamond powder with nanometer sized alpha alumina creates a slurry that can polish hard materials efficiently at a cost driven advantage.
Hastilite Ditron S has enhanced suspension for where thicker slurry is desirable such as brush feeding.
Hastilite Ditron 2.0 (BC1404)
Hastilite Ditron is a water based monocrystalline and alpha alumina slurry that is used in the polishing of hard materials, and crystals. Superior surface finishes can be produced on electronic components and parts made of tungsten carbide, silicon carbide, and other ceramic materials. The addition of highly refined and precision graded diamond powder with nanometer sized alpha alumina creates a slurry that can polish hard materials efficiently at a cost driven advantage.
Hastilite Ditron S has enhanced suspension for where thicker slurry is desirable such as brush feeding.
Hastilite Ditron 25.0 (BC1413)
Hastilite Ditron is a water based monocrystalline and alpha alumina slurry that is used in the polishing of hard materials, and crystals. Superior surface finishes can be produced on electronic components and parts made of tungsten carbide, silicon carbide, and other ceramic materials. The addition of highly refined and precision graded diamond powder with nanometer sized alpha alumina creates a slurry that can polish hard materials efficiently at a cost driven advantage.
Hastilite Ditron S has enhanced suspension for where thicker slurry is desirable such as brush feeding.
Hastilite Ditron 3.0 (BC1405)
Hastilite Ditron is a water based monocrystalline and alpha alumina slurry that is used in the polishing of hard materials, and crystals. Superior surface finishes can be produced on electronic components and parts made of tungsten carbide, silicon carbide, and other ceramic materials. The addition of highly refined and precision graded diamond powder with nanometer sized alpha alumina creates a slurry that can polish hard materials efficiently at a cost driven advantage.
Hastilite Ditron S has enhanced suspension for where thicker slurry is desirable such as brush feeding.
Hastilite Ditron 5.0 (BC1407)
Hastilite Ditron is a water based monocrystalline and alpha alumina slurry that is used in the polishing of hard materials, and crystals. Superior surface finishes can be produced on electronic components and parts made of tungsten carbide, silicon carbide, and other ceramic materials. The addition of highly refined and precision graded diamond powder with nanometer sized alpha alumina creates a slurry that can polish hard materials efficiently at a cost driven advantage.
Hastilite Ditron S has enhanced suspension for where thicker slurry is desirable such as brush feeding.
Hastilite Ditron 6.0 (BC1408)
Hastilite Ditron is a water based monocrystalline and alpha alumina slurry that is used in the polishing of hard materials, and crystals. Superior surface finishes can be produced on electronic components and parts made of tungsten carbide, silicon carbide, and other ceramic materials. The addition of highly refined and precision graded diamond powder with nanometer sized alpha alumina creates a slurry that can polish hard materials efficiently at a cost driven advantage.
Hastilite Ditron S has enhanced suspension for where thicker slurry is desirable such as brush feeding.
Hastilite Ditron 9.0 (BC1409)
Hastilite Ditron is a water based monocrystalline and alpha alumina slurry that is used in the polishing of hard materials, and crystals. Superior surface finishes can be produced on electronic components and parts made of tungsten carbide, silicon carbide, and other ceramic materials. The addition of highly refined and precision graded diamond powder with nanometer sized alpha alumina creates a slurry that can polish hard materials efficiently at a cost driven advantage.
Hastilite Ditron S has enhanced suspension for where thicker slurry is desirable such as brush feeding.
Hastilite HRD (BC50001)
HASTILITE HRD is a specially designed nano-diamond slurry for lapping hard ceramic or crystalline materials, specifically designed for multiple plane finishing of sapphire. Its unique formulation combines mechanical and chemical properties to provide high removal rates of 20-60 micron / hr. and superior surface finishes of <1 nm Ra. A unique, final lapping formula used in both conventional and double side operations, HASTILITE HRD leaves the surface fine lapped and uniform, where unique chemical and mechanical properties allow for best final lapping and finish.
Hastilite Morphus (BC7 Series)
Hastilite Morphus' unique next-generation formula utilizes engineered diamonds to enhance removal rates on average 50-100%, while simultaneously achieving surfaces with impeccable finishes. This series offers a variety of diamond sizes to meet even the most demanding polishing and lapping processes.
Hastilite Polytron .10 (BC14171)
Hastilite Polytron is a water based alpha alumina and polycrystalline diamond slurry used as an effective polishing agent for polishing hard materials to soft delicate crystals, a mechanical polishing formula designed for precise finishes on many materials. Superior surface finishes can be produced on electronic components and parts made of tungsten carbide, silicon carbide, and other structural ceramic materials. When fine diamond is added to nanometer-sizes alpha alumina, a synergy between the two polishing compounds occurs, resulting in slurry, which can polish hard materials efficiently at a fraction of the cost of diamond alone. All slurries are made using highly refined and precision graded diamond powders that have high bulk purity and surface purity. Hastililte Polytron is suitable for recirculatory central slurry systems for improved efficiency and reduction in costs.
Hastilite Polytron .25 (BC1418)
Hastilite Polytron is a water based alpha alumina and polycrystalline diamond slurry used as an effective polishing agent for polishing hard materials to soft delicate crystals, a mechanical polishing formula designed for precise finishes on many materials. Superior surface finishes can be produced on electronic components and parts made of tungsten carbide, silicon carbide, and other structural ceramic materials. When fine diamond is added to nanometer-sizes alpha alumina, a synergy between the two polishing compounds occurs, resulting in slurry, which can polish hard materials efficiently at a fraction of the cost of diamond alone. All slurries are made using highly refined and precision graded diamond powders that have high bulk purity and surface purity. Hastililte Polytron is suitable for recirculatory central slurry systems for improved efficiency and reduction in costs.
Hastilite Polytron .375 (BC1419)
Hastilite Polytron is a water based alpha alumina and polycrystalline diamond slurry used as an effective polishing agent for polishing hard materials to soft delicate crystals, a mechanical polishing formula designed for precise finishes on many materials. Superior surface finishes can be produced on electronic components and parts made of tungsten carbide, silicon carbide, and other structural ceramic materials. When fine diamond is added to nanometer-sizes alpha alumina, a synergy between the two polishing compounds occurs, resulting in slurry, which can polish hard materials efficiently at a fraction of the cost of diamond alone. All slurries are made using highly refined and precision graded diamond powders that have high bulk purity and surface purity. Hastililte Polytron is suitable for recirculatory central slurry systems for improved efficiency and reduction in costs.
Hastilite Polytron .50 (BC14195)
Hastilite Polytron is a water based alpha alumina and polycrystalline diamond slurry used as an effective polishing agent for polishing hard materials to soft delicate crystals, a mechanical polishing formula designed for precise finishes on many materials. Superior surface finishes can be produced on electronic components and parts made of tungsten carbide, silicon carbide, and other structural ceramic materials. When fine diamond is added to nanometer-sizes alpha alumina, a synergy between the two polishing compounds occurs, resulting in slurry, which can polish hard materials efficiently at a fraction of the cost of diamond alone. All slurries are made using highly refined and precision graded diamond powders that have high bulk purity and surface purity. Hastililte Polytron is suitable for recirculatory central slurry systems for improved efficiency and reduction in costs.
Hastilite Polytron 1.00 (BC1420)
Hastilite Polytron is a water based alpha alumina and polycrystalline diamond slurry used as an effective polishing agent for polishing hard materials to soft delicate crystals, a mechanical polishing formula designed for precise finishes on many materials. Superior surface finishes can be produced on electronic components and parts made of tungsten carbide, silicon carbide, and other structural ceramic materials. When fine diamond is added to nanometer-sizes alpha alumina, a synergy between the two polishing compounds occurs, resulting in slurry, which can polish hard materials efficiently at a fraction of the cost of diamond alone. All slurries are made using highly refined and precision graded diamond powders that have high bulk purity and surface purity. Hastililte Polytron is suitable for recirculatory central slurry systems for improved efficiency and reduction in costs.
Hastilite Polytron 1.5 (BC1421)
Hastilite Polytron is a water based alpha alumina and polycrystalline diamond slurry used as an effective polishing agent for polishing hard materials to soft delicate crystals, a mechanical polishing formula designed for precise finishes on many materials. Superior surface finishes can be produced on electronic components and parts made of tungsten carbide, silicon carbide, and other structural ceramic materials. When fine diamond is added to nanometer-sizes alpha alumina, a synergy between the two polishing compounds occurs, resulting in slurry, which can polish hard materials efficiently at a fraction of the cost of diamond alone. All slurries are made using highly refined and precision graded diamond powders that have high bulk purity and surface purity. Hastililte Polytron is suitable for recirculatory central slurry systems for improved efficiency and reduction in costs.
Hastilite Polytron 15.0 (BC14250)
Hastilite Polytron is a water based alpha alumina and polycrystalline diamond slurry used as an effective polishing agent for polishing hard materials to soft delicate crystals, a mechanical polishing formula designed for precise finishes on many materials. Superior surface finishes can be produced on electronic components and parts made of tungsten carbide, silicon carbide, and other structural ceramic materials. When fine diamond is added to nanometer-sizes alpha alumina, a synergy between the two polishing compounds occurs, resulting in slurry, which can polish hard materials efficiently at a fraction of the cost of diamond alone. All slurries are made using highly refined and precision graded diamond powders that have high bulk purity and surface purity. Hastililte Polytron is suitable for recirculatory central slurry systems for improved efficiency and reduction in costs.
Hastilite Polytron 2.0 (BC14222)
Hastilite Polytron is a water based alpha alumina and polycrystalline diamond slurry used as an effective polishing agent for polishing hard materials to soft delicate crystals, a mechanical polishing formula designed for precise finishes on many materials. Superior surface finishes can be produced on electronic components and parts made of tungsten carbide, silicon carbide, and other structural ceramic materials. When fine diamond is added to nanometer-sizes alpha alumina, a synergy between the two polishing compounds occurs, resulting in slurry, which can polish hard materials efficiently at a fraction of the cost of diamond alone. All slurries are made using highly refined and precision graded diamond powders that have high bulk purity and surface purity. Hastililte Polytron is suitable for recirculatory central slurry systems for improved efficiency and reduction in costs.
Hastilite Polytron 3.0 (BC1422)
Hastilite Polytron is a water based alpha alumina and polycrystalline diamond slurry used as an effective polishing agent for polishing hard materials to soft delicate crystals, a mechanical polishing formula designed for precise finishes on many materials. Superior surface finishes can be produced on electronic components and parts made of tungsten carbide, silicon carbide, and other structural ceramic materials. When fine diamond is added to nanometer-sizes alpha alumina, a synergy between the two polishing compounds occurs, resulting in slurry, which can polish hard materials efficiently at a fraction of the cost of diamond alone. All slurries are made using highly refined and precision graded diamond powders that have high bulk purity and surface purity. Hastililte Polytron is suitable for recirculatory central slurry systems for improved efficiency and reduction in costs.
Hastilite Polytron 4.0 (BC1424)
Hastilite Polytron is a water based alpha alumina and polycrystalline diamond slurry used as an effective polishing agent for polishing hard materials to soft delicate crystals, a mechanical polishing formula designed for precise finishes on many materials. Superior surface finishes can be produced on electronic components and parts made of tungsten carbide, silicon carbide, and other structural ceramic materials. When fine diamond is added to nanometer-sizes alpha alumina, a synergy between the two polishing compounds occurs, resulting in slurry, which can polish hard materials efficiently at a fraction of the cost of diamond alone. All slurries are made using highly refined and precision graded diamond powders that have high bulk purity and surface purity. Hastililte Polytron is suitable for recirculatory central slurry systems for improved efficiency and reduction in costs.
Hastilite Polytron 5.0 (BC1425P)
Hastilite Polytron is a water based alpha alumina and polycrystalline diamond slurry used as an effective polishing agent for polishing hard materials to soft delicate crystals, a mechanical polishing formula designed for precise finishes on many materials. Superior surface finishes can be produced on electronic components and parts made of tungsten carbide, silicon carbide, and other structural ceramic materials. When fine diamond is added to nanometer-sizes alpha alumina, a synergy between the two polishing compounds occurs, resulting in slurry, which can polish hard materials efficiently at a fraction of the cost of diamond alone. All slurries are made using highly refined and precision graded diamond powders that have high bulk purity and surface purity. Hastililte Polytron is suitable for recirculatory central slurry systems for improved efficiency and reduction in costs.
Hastilite Polytron 6.0 (BC1426)
Hastilite Polytron is a water based alpha alumina and polycrystalline diamond slurry used as an effective polishing agent for polishing hard materials to soft delicate crystals, a mechanical polishing formula designed for precise finishes on many materials. Superior surface finishes can be produced on electronic components and parts made of tungsten carbide, silicon carbide, and other structural ceramic materials. When fine diamond is added to nanometer-sizes alpha alumina, a synergy between the two polishing compounds occurs, resulting in slurry, which can polish hard materials efficiently at a fraction of the cost of diamond alone. All slurries are made using highly refined and precision graded diamond powders that have high bulk purity and surface purity. Hastililte Polytron is suitable for recirculatory central slurry systems for improved efficiency and reduction in costs.
Hastilite Polytron 9.0 (BC1429)
Hastilite Polytron is a water based alpha alumina and polycrystalline diamond slurry used as an effective polishing agent for polishing hard materials to soft delicate crystals, a mechanical polishing formula designed for precise finishes on many materials. Superior surface finishes can be produced on electronic components and parts made of tungsten carbide, silicon carbide, and other structural ceramic materials. When fine diamond is added to nanometer-sizes alpha alumina, a synergy between the two polishing compounds occurs, resulting in slurry, which can polish hard materials efficiently at a fraction of the cost of diamond alone. All slurries are made using highly refined and precision graded diamond powders that have high bulk purity and surface purity. Hastililte Polytron is suitable for recirculatory central slurry systems for improved efficiency and reduction in costs.
Microgrit 1 (AH0001)
Microgrit is an alumina powder developed with a unique particle shape, aspect ratio and size distribution. Each particle has a discrete crystal of alumina with over 99% purity. The crystals have a smooth surface and a distinctive platelet shape.
Microgrit 12 (AH0013)
Microgrit is an alumina powder developed with a unique particle shape, aspect ratio and size distribution. Each particle has a discrete crystal of alumina with over 99% purity. The crystals have a smooth surface and a distinctive platelet shape.
Microgrit 15 (AH0015)
Microgrit is an alumina powder developed with a unique particle shape, aspect ratio and size distribution. Each particle has a discrete crystal of alumina with over 99% purity. The crystals have a smooth surface and a distinctive platelet shape.
Microgrit 18 WCA (AH0018)
Microgrit is an alumina powder developed with a unique particle shape, aspect ratio and size distribution. Each particle has a discrete crystal of alumina with over 99% purity. The crystals have a smooth surface and a distinctive platelet shape.
Microgrit 20 (AH0021)
Microgrit is an alumina powder developed with a unique particle shape, aspect ratio and size distribution. Each particle has a discrete crystal of alumina with over 99% purity. The crystals have a smooth surface and a distinctive platelet shape.
Microgrit 25 (AH0025)
Microgrit is an alumina powder developed with a unique particle shape, aspect ratio and size distribution. Each particle has a discrete crystal of alumina with over 99% purity. The crystals have a smooth surface and a distinctive platelet shape.
Microgrit 3 (AH0003)
Microgrit is an alumina powder developed with a unique particle shape, aspect ratio and size distribution. Each particle has a discrete crystal of alumina with over 99% purity. The crystals have a smooth surface and a distinctive platelet shape.
Microgrit 30 (AH0031)
Microgrit is an alumina powder developed with a unique particle shape, aspect ratio and size distribution. Each particle has a discrete crystal of alumina with over 99% purity. The crystals have a smooth surface and a distinctive platelet shape.
Microgrit 40 (AH0041)
Microgrit is an alumina powder developed with a unique particle shape, aspect ratio and size distribution. Each particle has a discrete crystal of alumina with over 99% purity. The crystals have a smooth surface and a distinctive platelet shape.
Microgrit 5 (AH0007)
Microgrit is an alumina powder developed with a unique particle shape, aspect ratio and size distribution. Each particle has a discrete crystal of alumina with over 99% purity. The crystals have a smooth surface and a distinctive platelet shape.
Microgrit 50 (AH0051)
Microgrit is an alumina powder developed with a unique particle shape, aspect ratio and size distribution. Each particle has a discrete crystal of alumina with over 99% purity. The crystals have a smooth surface and a distinctive platelet shape.
Optical Powder 125 REG (AE0010)
Optical Powder is specifically designed to be an abrasive that insures fast cutting, uniform, scratch free surfaces on all types of glass. This powder is precision graded to be exact micron size by water separation processes 0.3 µm to 2.75 µm, the number is equivalent to the particle size (eg 175 is 17.5 µm). All powder sizes are available in a “ST” version that has suspension treatment.
Optical Powder 125 ST (AE0110)
Optical Powder is specifically designed to be an abrasive that insures fast cutting, uniform, scratch free surfaces on all types of glass. This powder is precision graded to be exact micron size by water separation processes 0.3 µm to 2.75 µm, the number is equivalent to the particle size (eg 175 is 17.5 µm). All powder sizes are available in a “ST” version that has suspension treatment.
Optical Powder 145 REG (AE0012)
Optical Powder is specifically designed to be an abrasive that insures fast cutting, uniform, scratch free surfaces on all types of glass. This powder is precision graded to be exact micron size by water separation processes 0.3 µm to 2.75 µm, the number is equivalent to the particle size (eg 175 is 17.5 µm). All powder sizes are available in a “ST” version that has suspension treatment.
Optical Powder 145 ST (AE0112)
Optical Powder is specifically designed to be an abrasive that insures fast cutting, uniform, scratch free surfaces on all types of glass. This powder is precision graded to be exact micron size by water separation processes 0.3 µm to 2.75 µm, the number is equivalent to the particle size (eg 175 is 17.5 µm). All powder sizes are available in a “ST” version that has suspension treatment.
Optical Powder 175 REG (AE0014)
Optical Powder is specifically designed to be an abrasive that insures fast cutting, uniform, scratch free surfaces on all types of glass. This powder is precision graded to be exact micron size by water separation processes 0.3 µm to 2.75 µm, the number is equivalent to the particle size (eg 175 is 17.5 µm). All powder sizes are available in a “ST” version that has suspension treatment.
Optical Powder 175 ST (AE0114)
Optical Powder is specifically designed to be an abrasive that insures fast cutting, uniform, scratch free surfaces on all types of glass. This powder is precision graded to be exact micron size by water separation processes 0.3 µm to 2.75 µm, the number is equivalent to the particle size (eg 175 is 17.5 µm). All powder sizes are available in a “ST” version that has suspension treatment.
Optical Powder 200 REG (AE0016)
Optical Powder is specifically designed to be an abrasive that insures fast cutting, uniform, scratch free surfaces on all types of glass. This powder is precision graded to be exact micron size by water separation processes 0.3 µm to 2.75 µm, the number is equivalent to the particle size (eg 175 is 17.5 µm). All powder sizes are available in a “ST” version that has suspension treatment.
Optical Powder 225 REG (AE0018)
Optical Powder is specifically designed to be an abrasive that insures fast cutting, uniform, scratch free surfaces on all types of glass. This powder is precision graded to be exact micron size by water separation processes 0.3 µm to 2.75 µm, the number is equivalent to the particle size (eg 175 is 17.5 µm). All powder sizes are available in a “ST” version that has suspension treatment.
Optical Powder 225 ST (AE0118)
Optical Powder is specifically designed to be an abrasive that insures fast cutting, uniform, scratch free surfaces on all types of glass. This powder is precision graded to be exact micron size by water separation processes 0.3 µm to 2.75 µm, the number is equivalent to the particle size (eg 175 is 17.5 µm). All powder sizes are available in a “ST” version that has suspension treatment.
Optical Powder 250 REG (AE0020)
Optical Powder is specifically designed to be an abrasive that insures fast cutting, uniform, scratch free surfaces on all types of glass. This powder is precision graded to be exact micron size by water separation processes 0.3 µm to 2.75 µm, the number is equivalent to the particle size (eg 175 is 17.5 µm). All powder sizes are available in a “ST” version that has suspension treatment.
Optical Powder 250 ST (AE0120)
Optical Powder is specifically designed to be an abrasive that insures fast cutting, uniform, scratch free surfaces on all types of glass. This powder is precision graded to be exact micron size by water separation processes 0.3 µm to 2.75 µm, the number is equivalent to the particle size (eg 175 is 17.5 µm). All powder sizes are available in a “ST” version that has suspension treatment.
Optical Powder 275 REG (AE0022)
Optical Powder is specifically designed to be an abrasive that insures fast cutting, uniform, scratch free surfaces on all types of glass. This powder is precision graded to be exact micron size by water separation processes 0.3 µm to 2.75 µm, the number is equivalent to the particle size (eg 175 is 17.5 µm). All powder sizes are available in a “ST” version that has suspension treatment.
Optical Powder 275 ST (AE0122)
Optical Powder is specifically designed to be an abrasive that insures fast cutting, uniform, scratch free surfaces on all types of glass. This powder is precision graded to be exact micron size by water separation processes 0.3 µm to 2.75 µm, the number is equivalent to the particle size (eg 175 is 17.5 µm). All powder sizes are available in a “ST” version that has suspension treatment.
Optical Powder 30 REG (AE0004)
Optical Powder is specifically designed to be an abrasive that insures fast cutting, uniform, scratch free surfaces on all types of glass. This powder is precision graded to be exact micron size by water separation processes 0.3 µm to 2.75 µm, the number is equivalent to the particle size (eg 175 is 17.5 µm). All powder sizes are available in a “ST” version that has suspension treatment.
Optical Powder 50 REG (AE0006)
Optical Powder is specifically designed to be an abrasive that insures fast cutting, uniform, scratch free surfaces on all types of glass. This powder is precision graded to be exact micron size by water separation processes 0.3 µm to 2.75 µm, the number is equivalent to the particle size (eg 175 is 17.5 µm). All powder sizes are available in a “ST” version that has suspension treatment.
Optical Powder 50 ST (AE0106)
Optical Powder is specifically designed to be an abrasive that insures fast cutting, uniform, scratch free surfaces on all types of glass. This powder is precision graded to be exact micron size by water separation processes 0.3 µm to 2.75 µm, the number is equivalent to the particle size (eg 175 is 17.5 µm). All powder sizes are available in a “ST” version that has suspension treatment.
Optical Powder 95 REG (AE0008)
Optical Powder is specifically designed to be an abrasive that insures fast cutting, uniform, scratch free surfaces on all types of glass. This powder is precision graded to be exact micron size by water separation processes 0.3 µm to 2.75 µm, the number is equivalent to the particle size (eg 175 is 17.5 µm). All powder sizes are available in a “ST” version that has suspension treatment.
Optical Powder 95 ST (AE0108)
Optical Powder is specifically designed to be an abrasive that insures fast cutting, uniform, scratch free surfaces on all types of glass. This powder is precision graded to be exact micron size by water separation processes 0.3 µm to 2.75 µm, the number is equivalent to the particle size (eg 175 is 17.5 µm). All powder sizes are available in a “ST” version that has suspension treatment.
Rhodes Alumina (AZ Series)
RHODES ALUMINA is an ultra-pure smooth platelet shaped crystalline alumina powder. RHODES ALUMINA crystals have exceptional resistance to fracturing which offers advantages over typical fused aluminum oxides. RHODES ALUMINA can be used on a wide variety of applications for surface finishing including: precision optics, ferrous and non-ferrous metals, germanium etc. Also available, is RHODES ALUMINA T that has suspension agents to prevent hard packing and provide different levels of suspension.
Unalum White (AB00**)
UNALUM WHITE is a high purity white fused aluminum oxide used with grinding and lapping applications. UNALUM WHITE is recommended for applications where contamination is an issue to be considered. UNALUM is specifically ideal for applications that require fine finishes on a wide variety of materials.
Unasil – Black Silicon Carbide (AA Series)
Unasil is an alpha silicon carbide (SiC) that possesses high thermal conductivity. Unasil has high strength at elevated temperatures, 7.5 times stronger than aluminum oxide at 1000°C. UPI offers grit sizes from 10 – 1200 mesh (approximately 1,800 to 3 micron).
Unasil Green (AA10**)
UNASIL GREEN is a hard man-made green silicon carbide (SiC) that possesses high thermal conductivity and high strength at elevated temperatures. UNASIL GREEN can be used on a wide variety of applications including vitrified and resinoid grinding wheels, honing stones, blasting grain or powder, lapping, polishing and many more. UNASIL GREEN is available in 100 – 1500 grit sizes.
Uni-Fine Optical Powder 220W (AG03105)
Uni-Fine Optical Powder is commonly known as garnet powder which is a homogenous mineral with a unique chemical structure. Uni-Fine Optical Powder is similar in performance to corundum, and is widely used in a variety of applications for stock removal on glass and plastic substrates.
Uni-Fine Optical Powder 320W (AG0316)
Uni-Fine Optical Powder is commonly known as garnet powder which is a homogenous mineral with a unique chemical structure. Uni-Fine Optical Powder is similar in performance to corundum, and is widely used in a variety of applications for stock removal on glass and plastic substrates.
Uni-Fine Optical Powder W4 (AG0010)
Uni-Fine Optical Powder is commonly known as garnet powder which is a homogenous mineral with a unique chemical structure. Uni-Fine Optical Powder is similar in performance to corundum, and is widely used in a variety of applications for stock removal on glass and plastic substrates.
Uni-Fine Optical Powder W5 (AG0012)
Uni-Fine Optical Powder is commonly known as garnet powder which is a homogenous mineral with a unique chemical structure. Uni-Fine Optical Powder is similar in performance to corundum, and is widely used in a variety of applications for stock removal on glass and plastic substrates.
Uni-Fine Optical Powder W6 (AG0014)
Uni-Fine Optical Powder is commonly known as garnet powder which is a homogenous mineral with a unique chemical structure. Uni-Fine Optical Powder is similar in performance to corundum, and is widely used in a variety of applications for stock removal on glass and plastic substrates.
Uni-Fine Optical Powder W7 (AG0016)
Uni-Fine Optical Powder is commonly known as garnet powder which is a homogenous mineral with a unique chemical structure. Uni-Fine Optical Powder is similar in performance to corundum, and is widely used in a variety of applications for stock removal on glass and plastic substrates.
Uni-Fine Optical Powder W8 (AG0018)
Uni-Fine Optical Powder is commonly known as garnet powder which is a homogenous mineral with a unique chemical structure. Uni-Fine Optical Powder is similar in performance to corundum, and is widely used in a variety of applications for stock removal on glass and plastic substrates.