Abstract: An active/resilient grinding media inside a tube containing a sample is oscillated rapidly by a homogenizer so that the active media is driven in a first direction until it impacts a first end of the tube, which causes it to deform and store an energy charge as it decelerates and stops, and it then accelerates rapidly in the second opposite direction under the discharging force of the stored energy toward the opposite second end of the tube. This cycle of the active media decelerating/charging and then discharging/accelerating is repeated throughout the entire oscillatory processing of the sample. The result is much higher velocities of the active media and therefore much greater impact forces when the sample and active media collide, producing increased efficiency in disruption and size-reduction of the sample particles.

Abstract: A method for producing an ink includes providing nanoparticles having a size of 0.1 to 20 nm maximum by wet milling using a solvent and covalently bonding, by means of a coupling reaction, short-chain, branched organic stabilizer molecules to the surface of the nanoparticles. The method additionally includes absorbing the stabilized nanoparticles in a solvent for producing the ink and dispersing the stabilized nanoparticles.

Abstract: Milling methods that use grinding media particles formed of a ceramic material having an interlamellar spacing of less than 1250 nm.

Abstract: Although injection molding includes extreme conditions, an RFID device may be over-molded by injection molding. A syringe includes a barrel having a first and second axial ends, the barrel defining a cavity therein; a plunger configured to be received in the cavity and define with the barrel a chamber for holding a fluid, the plunger being axially moveable within the barrel for increasing and decreasing the volume of the chamber thereby respectively forcing fluid into or out of the chamber; and a plunger seal, also known as a “syringe stopper” for sealing between the plunger and the barrel, the plunger seal including an RFID device for identifying the syringe. The plunger seal may be made by injection molding.

Abstract: A process for providing a corrosion resistant coating on uncoated ferrous components, involving mechanical plating, using as a coating medium a zinc metal-containing powder, such as zinc or zinc alloy powder, or a powder mixture of zinc or zinc alloy and at least one other metal, so as to build up a firmly adherent coating of the coating medium over exposed surfaces of the components, heating the components with the firmly adherent coating to produce solid-solid diffusion to form an Fe/Zn intermetallic over the surfaces, at least in a base layer of the coating built up by the plating, and cooling the components.

Abstract: A method of producing nanoparticles can comprise milling a plurality of milling bodies sufficient to produce the nanoparticles from exterior surfaces of the plurality of milling bodies. In this manner, the milling bodies are simultaneously the milling media and the feedstock for production of nanoparticles such that additional solids are not present during milling. Nanoparticles can be readily formed and optional milling agent and capping agents can be provided to stabilize and/or customize the nanoparticles for a particular application.

Abstract: The invention relates to a grinding body for crushing and grinding of ores rocks or earth, inert and all other materials, in drum and other mills. It finds application in ore enrichment, production of construction materials, waste processing and other industrial branches. The grinding body comprises a spheroidal cone, whose forming curve is part of a circle or of some other geometrical curve and a vertex, and a base which is part of a sphere or of other three-dimensional figure, obtained by rotation of geometrical curves and an edge between them. In one of the versions the cone and the base are connected by a cylinder. For better producibility of the grinding body, a flat spot with circular or other shape is made on the surface of the base. In another version the flat spots are made on the surface of the cone and on the surface of the cylinder between the base and the cone. In a subsequent version the vertex of the cone is cut flat with its plane perpendicular or inclined towards the axis of the body.

Abstract: Described and claimed herein is a method of producing enhanced combustion ash for use in pozzolanic applications or cement clinker manufacture. The method employs a primary process in which wet or dry feedstock is pulverized with sonication using one or more grinding media having a maximum component size of about 2 mm. Alternatively, the media may have a true grinding medium volume to chamber volume ratio of at least 0.29. Also disclosed an claimed is an enhanced combustion ash produced by the method, whereby the enhanced combustion ash has one or more qualities that make it particularly suitable in pozzolanic applications or cement clinker manufacture.

Abstract: A method of grinding a particulate material, comprising grinding said material in a stirred mill in the presence of a grinding media comprising rod-shaped particles, wherein said rod-shaped particles have an aspect ratio of equal to or greater than about 2:1.

Abstract: The invention relates to a grinding body for crushing and grinding of ores rocks or earth, inert and all other materials, in drum and other mills. It finds application in ore enrichment, production of construction materials, waste processing and other industrial branches. The grinding body comprises a spheroidal cone, whose forming curve is part of a circle or of some other geometrical curve and a vertex, and a base which is part of a sphere or of other three-dimensional figure, obtained by rotation of geometrical curves and an edge between them. In one of the versions the cone and the base are connected by a cylinder. For better producibility of the grinding body, a flat spot with circular or other shape is made on the surface of the base. In another version the flat spots are made on the surface of the cone and on the surface of the cylinder between the base and the cone. In a subsequent version the vertex of the cone is cut flat with its plane perpendicular or inclined towards the axis of the body.

Abstract: Grinding media for fragmentation and grinding of ores, rock and earth mass and other materials mostly in drum mills, for application in ore mining, construction and other industrial branches. The grinding media have the form of spheroidal tetrahedron, obtained from the crossing of four spheres with equal radii, the centers of each one lie on the top of the surface of the others and are tips of regular tetrahedron. The radii of the spheres are equal to the regular tetrahedron's edge. At least one of the tips (1) of the spheroidal tetrahedron is flatly beveled and the rest are rounded, so one and the same mass of material is taken away from each tip (1). It is possible the edges (2) of the grinding media to be rounded, beveled or ribbed. The ribbing can be even or arch-shaped.

Abstract: A particle diameter of a raw material to be pulverized can be decreased within a short time period. A vibration mill includes a container having therein a columnar space with a central axis of the columnar space being almost horizontal while the container is held so as to be vibratable in a direction of within a plane that is almost perpendicular to the central axis, a cylindrical medium disposed in the container so as to be vibratable, and a plurality of pulverizing media disposed inside the cylindrical medium so as to be vibratable. The ratio of an inner diameter of the cylindrical medium in contact with the pulverizing medium to an outer diameter of the pulverizing medium is 2.1 or more. The integrated value of volumes of the pulverizing media relative to a space volume inside the cylindrical medium in contact with the pulverizing medium is more than 25%.

Abstract: The present invention is generally directed to a system and method for obtaining a test sample from a seed or seeds. The method generally includes placing at least one seed into a seed sampling chamber, breaking the seed into a plurality of seed particles inside the seed sampling chamber, placing a sampling element into the seed sampling chamber, and collecting at least a portion of the plurality of seed particles with the sampling element by attracting at least a portion of the seed particles to a surface of the sampling element or by forcing at least a portion of the seed particles into a feature of the sampling element. In some embodiments, the method further includes using a sampling element transfer device to transfer the sampling element to an extraction well, which may be used to extract DNA or proteins from the collected portion of seed particles.

Abstract: A ball milling process for preparing hard alloy mixture, characterized by utilizing a process of stirring ball milling, in which balls of hard alloy with diameters of 4 to 6 mm are used, the positive and negative deviation of the diameters of the alloy balls is less than or equal to 0.1 mm; tungsten carbide powders with particle sizes of 0.3 to 0.8 ?m and cobalt powders are used; ethyl alcohol is used as a grinding medium, while paraffin wax is used as a forming agent. This process of ball milling has advantages of high efficiency, low energy consumption, ease of mass production, etc. and can be widely used in the preparation of hard alloy mixture.

Abstract: The present invention relates to a method for the preparation of mechano-structured nacre by mechanosynthesis of micrometric nacre powder, characterized in that the temperature of the nacre is kept below 40° C. It also relates to the mechano-structured nacre and to uses thereof, in particular on implants and bone substitute pieces on which the mechano-structured nacre is deposited.

Abstract: A system and methods for recycling lithium-containing battery materials are disclosed. More specifically, the system and method use a high energy ball mill for recrystallizing, reordering and/or reconstituting the lithium-ion containing battery material. In one embodiment, the system for recrystallizing the lithium-containing battery material restores it to its original state of functionality.

Abstract: A stirred ball mill assembly includes multiple vessels each having a body supporting sets of magnets rotatable with respect to the body. Each vessel defines an enclosed milling chamber, and has a stirring arm assembly extending in the respective enclosed milling chamber and connected for rotation with the respective sets of magnets. The sets of magnets and the stirring arm assembly are completely enclosed within the respective vessel. The vessels are configured to be stacked with one another so that adjacent ones of the sets of magnets are magnetically coupled with one another. A drive motor assembly has another set of magnets magnetically coupled with one of the sets of magnets of the stacked vessels. The drive motor can rotate the stirring arm assemblies within the milling chambers of the milling chambers of the stacked vessels via magnetic coupling of the magnets.

Abstract: Improved ball mill disruption techniques. In different embodiments, disrupting particles that are not substantially spherical are used. In other embodiments, roughened disrupting particles are used. In other embodiments, larger disrupting particles are used. In each instance, improved disruption can be achieved.

Abstract: A clean dry white glass powder useful as a substitute for Portland cement in concrete, in paints, and for other known uses for glass powder produced conventionally can be produced from unsorted post-consumer waste glass, including a substantial fraction of non-glass items, by employing glass pulverizing equipment to reduce waste glass to small fragments, allowing removal of trash, employing a multistep washing process to clean the glass fragments, in the preferred embodiment using aggregate cleaning equipment, drying the fragments, preferably using fluidized bed techniques, and grinding the glass to a desired particle size, preferably using a ball mill, in combination with an air classification step to produce a bright white glass powder of uniform particle size.

Abstract: A method for reducing particle size of a particulate comprising feeding a feed material to a grinding mill having a power of at least 500 kW, the mill having a specific power draw of at least 50 kW per cubic meter of grinding volume of the mill and the grinding mill including a grinding media comprising particulate material having a specific gravity of not less than 2.4 tons/m3 and a particle size falling in the range of from about 0.8 to 8 mm, grinding the feed material in the grinding mill and removing a product from the grinding mill, the product having a particle size range such that D80 of the product is at least about 20 microns.

Abstract: A wet ball mill method for fabricating copper/indium/gallium/selenium (CIGS) nanoparticles, comprising an individual milling process, a homogeneously mixing process, a primary milling process, and an advanced milling process, wherein in the individual milling process, the individual particles or compound particles including copper, indium, gallium and/or selenium are milled to the individual milled materials with a particle size 500 nm to 600 nm; in the homogeneously mixing process, the individual milled materials are mixed to a mixed homogenate; in the primary milling process, the mixed homogenate is milled to the primary milled materials with particle size 100 nm to 200 nm; and in the advanced milling process, the primary milled materials are milled to the advanced milled materials with particle size less than 50 nm which are the CIGS nanoparticles for fabricating the absorption layer of CIGS solar cell.

Abstract: This invention relates to the preparation of particle dispersions in a media mill using plastic, substantially cubic media to effect particle size reduction and/or dispersion of the particles.

Abstract: An apparatus and method for generating a chosen, relatively uniform size of particles having a dry-to-the-touch feel and a pleasant odor from chipped slash or other vegetative material is described. When pine sap and/or other liquids are present in the starting materials, the teachings of the present invention permit the generation of particulates into which such substances are substantially uniformly absorbed. The process of the present invention has been successfully applied to chipped, live trees, dried tree materials, branches, needles, pine cones, hay, flowers, grass, berries, and shrubs.

Abstract: A particulate material is ground more efficiently using a mixture of at least two different sizes of yttrium-stabilized zirconia balls. The method facilitates preparation of photocatalysts with high activity.

Abstract: A system for milling at least one material, e.g., a drug. The system includes a milling apparatus and at least one milling medium. The milling apparatus includes a chamber having a rotary milling head located in it. The milling head is rotated within the chamber by a magnetic drive system.

Abstract: The present invention relates to grinding balls made of fritted ceramic comprising a compound of alumina silicate (?Al2O3.?SiO2) and in particular mullite (3Al2O3.2SiO2), zirconia (ZrO2) and alumina (Al2O3).

Abstract: A method of milling cerium compound by means of a ball mill using a milling medium, characterized in that ratio Hb/r of radius r of a cylindrical ball mill container and depth Hb of the milling medium in the ball mill container disposed horizontally ranges from 1.2 to 1.9, and the ball mill container is rotated at a rotational speed which is 50% or less of critical rotational speed Nc=299/r1/2 of the ball mill container converted from the radius r expressed in centimeter. The milling method can be carried out in a wet or dry process, and the cerium compound is preferably cerium oxide. The method can be also applied for producing a cerium compound slurry.

Abstract: In order to increase the service life of a grinding tool (14, 16, 24a, 24b), it is coated with a wear-resistant material, wherein the coating (30, 301) has a ductile metallic parent material (32) with hard particles (34) embedded therein.

Abstract: The present invention relates to grinding balls made of fritted ceramic comprising a compound of alumina silicate (?Al2O3.?SiO2) and in particular mullite (3Al2O3.2SiO2), zirconia (ZrO2) and alumina (Al2O3).

Abstract: Improved ball mill disruption techniques. In different embodiments, disrupting particles that are not substantially spherical are used. In other embodiments, roughened disrupting particles are used. In other embodiments, larger disrupting particles are used. In each instance, improved disruption can be achieved.

Abstract: An aluminum flake pigment containing aluminum flakes as basic particles, said aluminum flakes having an average particle diameter in the range of 3 to 20 ?m and an average value of minimum diameter/maximum diameter of at least 0.6.

Abstract: Grinding media, including shaped media such as spheres or rods ranging in size from about 0.5 micron to 100 mm in diameter, are formed from a multi-carbide material consisting essentially of two or more carbide-forming elements and carbon, with or without carbide-forming elements in their free elemental state. The media have extremely high mass density, extreme hardness, and extreme mechanical toughness.

Abstract: Grinding media, including shaped media such as spheres or rods ranging in size from about 0.5 micron to 100 mm in diameter, are formed from a multi-carbide material consisting essentially of two or more carbide-forming elements and carbon, with or without carbide-forming elements in their free elemental state. The media have extremely high mass density, extreme hardness, and extreme mechanical toughness.

Abstract: Grinding media, including shaped media such as spheres or rods ranging in size from about 0.5 micron to 100 mm in diameter, are formed from a multi-carbide material consisting essentially of two or more carbide-forming elements and carbon, with or without carbide-forming elements in their free elemental state. The media have extremely high mass density, extreme hardness, and extreme mechanical toughness.

Abstract: A processing apparatus for fluid with a simple structure, high productivity, ability of precise dispersion, emulsification and grinding, is provided. The apparatus of the present invention comprises at least two processing faces of a first face and a second face, both of which are arranged in a tight-closed passage, and positioned opposite to each other to constitute part of said passage, and a contact pressure applying mechanism for putting both faces 1, 2 into closed contact with each other, wherein the rotation of the second processing face 2 in respect of the first processing face 1 may cause dispersion or emulsification of the fluid to be processed between both processing faces 1, 2.

Abstract: A system for milling at least one material, e.g., a drug, is described. The system includes a milling apparatus. In another embodiment of the invention, the system includes at least one milling medium. The milling apparatus includes a chamber having a rotary milling head located in it. The milling head is rotated within the chamber by a magnetic drive system.

Abstract: A method of using polymeric grinding media to produce fine solid particles or fine solid dispersions in liquid, such as pigment dispersions for inks, is provided. The method of the present invention limits packing and plugging problems associated with polymeric media to allow efficient milling operation.

Abstract: The present invention relates to a grinder body of the spherical type inscribed in a sphere (S) of radius R and including concave portions disposed in such a manner as to avoid altering the center of gravity of the sphere. In characteristic manner of the invention, the maximum depth (h) of the concave portions lies substantially in the range {fraction (1/12)}th to {fraction (1/18)}th of the radius R of said sphere (S). The present invention also provides a method of grinding that implements the grinder body of the invention, and a ball mill containing a grinding mass that includes grinder bodies of the invention.

Abstract: A pilot plant scale SAG mill suitable for use in design of a commercial scale SAG mill. The ball mill has a cylindrical outer chamber having flanges at opposed ends. The cylindrical outer chamber contains a removable grinding chamber in the form of a sleeve. The removable grinding chamber has a diameter of 2-5 feet and a ratio of diameter:length in the range of 3:1 to 1:1. The removable grinding chamber contains a plurality of steel balls. The removable grinding chamber extends partly down the length of the cylindrical chamber and has longitudinal lifters attached to the internal surface of the sleeve. The lifters are capable of lifting steel balls located in the removable grinding chamber during rotation of the cylindrical outer chamber. The removable grinding chamber has means at one end for receiving particulate ore from a feed hopper and a removable diaphragm at the opposed end, the removable diaphragm having outlet ports therein for discharge of ground particulate ore into the cylindrical outer chamber.

Abstract: A system for milling at least one material, e.g., a drug. The system includes a milling apparatus and at least one milling medium. The milling apparatus includes a chamber having a rotary milling head located in it. The milling head is rotated within the chamber by a magnetic drive system.

Abstract: A process for milling a solid substrate in the milling chamber of a dispersion or media mill in the presence of a two or more compositions of milling media bodies is disclosed wherein all milling media bodies contribute to the grinding of the solid substrate and wherein at least one composition of media bodies provides fragments of milling media bodies that are retained with the milled solid substrate particles in the form of a synergetic commixture produced in the milling process.

Abstract: A pilot plant scale SAG mill suitable for use in design of a commercial scale SAG mill. The ball mill has a cylindrical outer chamber having flanges at opposed ends. The cylindrical outer chamber contains a removable grinding chamber in the form of a sleeve. The removable grinding chamber has a diameter of 2-5 feet and a ratio of diameter:length in the range of 3:1 to 1:1. The removable grinding chamber contains a plurality of steel balls. The removable grinding chamber extends partly down the length of the cylindrical chamber and has longitudinal lifters attached to the internal surface of the sleeve. The lifters are capable of lifting steel balls located in the removable grinding chamber during rotation of the cylindrical outer chamber. The removable grinding chamber has means at one end for receiving particulate ore from a feed hopper and a removable diaphragm at the opposed end, the removable diaphragm having outlet ports therein for discharge of ground particulate ore into the cylindrical outer chamber.

Abstract: In a method for ultrafine grinding of solid particulate material to mean particle sizes far below 1 micrometer and/or for mixing of powder and agglomerate material with mean particle sizes in the range of nanometers, the material to be ground and/or mixed and an grinding/mixing additive are filled into a cooled grinding chamber containing loose grinding media. By motion of the grinding media relative to adjacent media and to the walls of the grinding chamber the material is ground to the desired particle size and/or is finely mixed. Subsequently the additive is removed from said material. For the production of particle sizes in the range of nanometers and/or for mixing particles of this size range, the method comprises that grinding and/or mixing is carried out in a cooled atmosphere in the presence of a fine grained solidified additive which is chemically inert to said material, preferably water ice or solid carbon dioxide, at temperatures below their melting or sublimation temperature.

Abstract: Alpha alumina milling media made by a sol-gel process have improved utility in milling alumina materials in a bead mill.

Abstract: The present invention is a process for the preparation of a solid particles of a compound. The process includes milling the compound in the presence of milling media composed of ceramic particles having an average size of 0.1 to 20 mm. The ceramic particles are composed of a tetragonal zirconia core and a continuous hard case shell comprising cubic zirconia, monoclinic zirconia, spinel or zircon.

Abstract: Alpha alumina milling media made by a sol-gel process have improved utility in milling alumina materials in a bead mill.

Abstract: An agitator mill with a grinding receptacle comprises a grinding chamber defined by an inner wall thereof and a rotor which is located therein and driven in high-speed actuation. Mounted on the rotor are agitator elements which stand out radially and to which are allocated counterpart elements mounted on the inner wall. A grinding-stock inlet is provided on an end of the grinding chamber and a grinding-stock outlet is provided on the other end of the grinding chamber, comprising an auxiliary-grinding-body separating device for the auxiliary grinding bodies in the grinding chamber to be held back. The distance of agitator elements and counterpart elements which adjoin each other decreases from the grinding-stock inlet towards the auxiliary-grinding-body separating device.

Abstract: A method of mechano-chemical fluorination is described that has a significantly improved yield over prior art methods of synthesis. The present invention illustrates this improved mechano-chemical Fluorination by describing the improved synthesis of Fullerene Fluorides (FF). This method overcomes reduced product yield that results from vibromill material corrosion. This method also overcomes the prior fluorination and FF synthesis problems of the prior art by utilizing different fluorinating materials, adding catalysts and diluting agents to the process, varying milling times, and heating in the presence of inert gasses to improve the fluorination process.

Abstract: The present invention relates to a method of producing paste containing flaky aluminum powder, which is the main ingredient of the topcoat paint for automobiles. The present invention is intended to provide a production method, which is more economical than the conventional method of using the gas-atomozied powders. In particular, a vessel is charged with by-product scraps from the production process of aluminum foil, balls, mineral spirits, and an unsaturated fatty acid, such as oleic acid. Under such conditions, the ball-milling is carried out to yield an intermediate paste containing flaky aluminum powder, which is then made into aluminum paste by adjusting the amount of a solvent.

Abstract: A structure of grinding medium controllable in shape and specific gravity and comprising a housing, a cover, a spring and a core member is disclosed. The housing includes a head and a stem having a central cavity. The spring is fitted over the stem to form cutting blades for grinding/cutting. The spring can be formed into the shape wherein the thread on one side is close while on the other side is open, and the sectional shape of the spring can be various; hence the medium structure can have ideal blade contours in favor of grinding efficiency. The cover engages the cavity of the stem to form a sealed receiving chamber for positioning the spring, and the receiving chamber with a given volume formed between the cavity and the cover receives a core member or keeps empty. Therefore, specific gravity of the structure is under control and approach that of grinding liquid.