Patent application number | Description | Published |
20090264050 | HIGH POROSITY ABRASIVE ARTICLES AND METHODS OF MANUFACTURING SAME - An abrasive article includes a polymer matrix and abrasive grains dispersed in the polymer matrix, wherein the abrasive article has a void volume of at least 50%. The polymer matrix is polymerized from a monomer including at least one double bond. | 10-22-2009 |
20120036789 | Abrasive Article for Use in Grinding of Superabrasive Workpieces - An abrasive article including a bonded abrasive having a body formed of abrasive grains contained within a bond material, wherein the body grinds a superabrasive workpiece having an average Vickers hardness of at least about 5 GPa at an average specific grinding energy (SGE) of not greater than about 350 J/mm | 02-16-2012 |
20120040589 | METHODS OF GRINDING WORKPIECES COMPRISING SUPERABRASIVE MATERIALS - A method of grinding a superabrasive workpiece includes placing a bonded abrasive article in contact with a superabrasive workpiece, wherein the bonded abrasive article comprises a body including abrasive grains contained within a bond material, and the superabrasive workpiece has an average Vickers hardness of at least about 1 GPa, and removing material from the superabrasive workpiece at an average specific grinding energy (SGE) of not greater than about 350 J/mm | 02-16-2012 |
20120055098 | BONDED ABRASIVE ARTICLE AND METHOD OF FORMING - An abrasive article includes a body having abrasive grains contained within a bond material comprising a metal or metal alloy, wherein the body comprises a ratio of V | 03-08-2012 |
20120066982 | BONDED ABRASIVE ARTICLES, METHOD OF FORMING SUCH ARTICLES, AND GRINDING PERFORMANCE OF SUCH ARTICLES - An abrasive tool having a bonded abrasive body including abrasive grains contained within a bond material comprising a metal. During a grinding operation, the bonded abrasive body has a power variance [(Po−Pn)/Po]×100% of not greater than about 40%, wherein Po represents the grinding power to grind a workpiece with the bonded abrasive body at an initial grinding cycle and Pn represents the grinding power to grind the workpiece for a nth grinding cycle, wherein n>4. | 03-22-2012 |
20120266543 | VITRIOUS BONDED ABBRASIVE - A vitrified superabrasive product includes a superabrasive component and a vitrified bond component in which the superabrasive component is dispersed. The vitrified bond includes an oxide of a lanthanoid. Additionally, the vitrified bond component defines pores that can be essentially all less than 800 μm in diameter. Seventy percent of the pores are in a range of between about 40 μm and about 500 μm and have an average aspect ratio less than about 2. The porosity is in a range of between about 50% and about 90% of the total volume of the superabrasive product. | 10-25-2012 |
20120279139 | Resin Bonded Abrasive - A superabrasive resin product includes a superabrasive grain component, an oxide component, and a continuous phase defining a network of interconnected pores. The oxide component consists of an oxide of a lanthanoid, and the continuous phase includes a thermoplastic polymer component. The superabrasive grain component and the oxide component are distributed in the continuous phase. | 11-08-2012 |
20130000211 | ABRASIVE ARTICLE AND METHOD OF MAKING - An abrasive article includes a bonded abrasive having a body made of abrasive grains contained within a composite bond material. The composite bond material can include an organic material and a metal material. The body can also include a filler material made of a superabrasive material. In an embodiment, the filler material can have an average particle size at least about 10 times less than an average particle size of the abrasive grains. | 01-03-2013 |
20140182214 | Abrasive Articles and Method of Forming Same - An abrasive article including a bonded abrasive body having a bond material made of a vitrified material, abrasive particles comprising a first type of superabrasive material contained in the bond material, a porosity of at least about 50 vol % of the total volume of the bonded abrasive body, and a ΔCTE of not greater than about 5.5 ppm/° C., wherein ΔCTE is defined as a difference between a CTE of the bond material and a CTE of the abrasive particles. | 07-03-2014 |
20140187123 | BONDED ABRASIVE ARTICLE AND METHOD OF GRINDING - An abrasive article configured to grind a workpiece having a fracture toughness of less than about 6 MPa·m ½ includes a body comprising abrasive particles contained within a bond material comprising a metal, wherein the body comprises a ratio of V | 07-03-2014 |
20140187124 | BONDED ABRASIVE ARTICLE AND METHOD OF GRINDING - An abrasive article configured to grind a workpiece having a fracture toughness at least about 7 MPa·m | 07-03-2014 |
20140187125 | BONDED ABRASIVE ARTICLE AND METHOD OF GRINDING - An abrasive article comprising: a first body comprising a first bond material having abrasive particles contained within the first bond material, wherein the first body comprising the first bond material comprises a ratio of V | 07-03-2014 |
20140187129 | ABRASIVE ARTICLE HAVING A CORE OF AN ORGANIC MATERIAL AND A BONDED ABRASIVE BODY COMPRISING A BOND MATERIAL - An abrasive article includes a core comprising an organic material and a first bonded abrasive body integrally bonded directly to the core, wherein the bonded abrasive body includes a bond material, and abrasive particles contained within the bond material. | 07-03-2014 |
20140202085 | BONDED ABRASIVE ARTICLE AND METHOD OF FORMING - An abrasive article includes a body having abrasive grains contained within a bond material comprising a metal or metal alloy, wherein the body comprises a ratio of V | 07-24-2014 |
20140290149 | Vitreous Bonded Abrasive - A vitrified superabrasive product includes a superabrasive component and a vitrified bond component in which the superabrasive component is dispersed. The vitrified bond includes an oxide of a lanthanoid. Additionally, the vitrified bond component defines pores that can be essentially all less than 800 μm in diameter. Seventy percent of the pores are in a range of between about 40 μm and about 500 μm and have an average aspect ratio less than about 2. The porosity is in a range of between about 50% and about 90% of the total volume of the superabrasive product. | 10-02-2014 |
20140298729 | BONDED ABRASIVE ARTICLE AND METHOD OF GRINDING - An abrasive article configured to grind a workpiece having a fracture toughness of at least about 5.5 MPa·m | 10-09-2014 |
20140323020 | GRINDING AND POLISHING TOOL - A grinding tool includes a shank having an axis, and at least two abrasive portions mounted directly to and in contact with the shank without a hub therebetween. Each of the abrasive portions has a substantially identical profile formed therein. | 10-30-2014 |
20140366457 | ABRASIVE TOOLS AND METHODS OF FORMING THE SAME - An abrasive tool is provided that may include a body, which may include abrasive particles contained within a bond material. The abrasive particles may be a super abrasive material. The body may further include at least one of a ratio of tungsten to cast iron (W/CI) of not greater than about 1, a ratio of copper-containing compositions to cast iron (CCC/CI) of not greater than about 1, a ratio of titanium-containing compositions to cast-iron (TiCC/CI) of not greater than about 1, a ratio of tungsten carbide to cast iron (WC/CI) of not greater than about 1, a ratio of tungsten carbide to copper-containing compositions (WC/CCC) of not greater than about 1, a ratio of copper-containing compositions and titanium-containing compositions to cast iron ((CCC+TiC)/CI) of not greater than about 1.5 or a combination thereof. | 12-18-2014 |
20140366458 | ABRASIVE TOOLS AND METHODS OF FORMING THE SAME - An abrasive tool is provided that may include a body, which may include abrasive particles contained within a bond material. The abrasive particles may be a super abrasive material. The body may further include at least one of a break-in length of not greater than about 1000 linear meters, a maximum initial speed character of at least about 10 m/min, a life span of at least about 1000 linear meters, a dressing frequency of at least about 25 parts/dress, an edge quality of at least about 25% of a workpiece free from defects and a combination thereof. | 12-18-2014 |
20150027062 | ABRASIVE ARTICLE AND METHOD OF MAKING - An abrasive article includes a bonded abrasive having a body made of abrasive grains contained within a composite bond material. The composite bond material can include an organic material and a metal material. The body can also include a filler material made of a superabrasive material. In an embodiment, the filler material can have an average particle size at least about 10 times less than an average particle size of the abrasive grains. | 01-29-2015 |
20150059256 | ABRASIVE ARTICLE AND METHOD OF FORMING - An abrasive article including a bonded abrasive body including a bond material having a metal, abrasive particles contained within the bond material, and a filler blend including fine filler particles and coarse filler particles and defining a filler particle size ratio (Ff/Fc) of not greater than about 0.97, where Ff represents the average particle of the fine filler particles and Fc represents the average particle size of the coarse filler particles. | 03-05-2015 |