Abstract: Methods are disclosed by which melt-formed inorganic fibers may be processed to form a gravity-laid inorganic fiber web. The gravity-laying process comprises mechanically separating the melt-formed inorganic fibers and collecting the fibers, and may comprise blending the melt-formed inorganic fibers with other inorganic fibers and/or with inorganic particulate additives.

Abstract: The present invention refers to an adequate composite material to be prepared by an injection process and to an injection process of a composite material. In accordance with the process of the present invention, the composite material is prepared by carrying out the steps of (i) making the length of the natural fibers uniform; (ii) treating the surface of the natural fibers and of the lignocellulosic residues, if present; (iii) premixing the components of the composite; (iv) extruding and granulating the composite material; and (v) injection molding the material of the composite for the conformation of the parts.

Abstract: This invention encompasses to obtain non-convertible solid pharmaceutical formulations of moxifloxacin anhydrous by using of wet granulation with an organic solvent or mixtures of organic solvents.

Abstract: Embodiments of the present disclosure provide for articles, compositions, methods for making articles, methods of using articles, and the like. Embodiments of the present disclosure relate to articles having superior tribological properties. In particular, embodiments of the present disclosure have a low coefficient of friction and a very low wear rate relative to polytetrafluoroethylene (PTFE).

Abstract: Provided is a method for preparing a tablet having high tablet hardness and an excellent disintegration property even if low-substituted hydroxypropyl cellulose is added in a relatively small amount. More specifically, provided is a method for preparing a tablet comprising steps of granulating while spraying an aqueous dispersion of low-substituted hydroxypropyl cellulose having a degree of hydroxypropoxyl group substitution ranging from 5 to 16% by weight to a tablet-forming composition and tableting the resulting granules.

Abstract: Processes for producing nonwoven web products containing sub-micron fibers are provided, and more specifically processes for producing nonwoven web products having sub-micron fibers formed by fibrillation of polymer films are provided.

Abstract: The present invention relates to a process for preparing tablets of pramipexole dihydrochloride. In particular, the present invention relates to a process for preparing tablets of pramipexole dihydrochloride wherein the tablets exhibit enhanced storage stability properties.

Abstract: A refractory object can include a beta alumina. In an embodiment, the refractory object is capable of being used in a glass fusion process. In another embodiment, the refractory object can have a total Al2O3 content of at least 10% by weight. Additionally, a Mg—Al oxide may not form along a surface of the refractory object when the surface is exposed to a molten glass including an Al—Si—Mg oxide. In a particular embodiment, a refractory object can be in the form of a glass overflow forming block used to form a glass object that includes an Al—Si—Mg oxide. When forming the glass object, the glass material contacts the beta alumina, and during the flowing of the glass material, a Mg—Al oxide does not form along the beta alumina at the surface.

Abstract: A manufactured item for the building industry is disclosed, made mainly of bottom ash and/or debris coming from incineration processes of municipal solid waste or of waste which may be assimilated thereto and/or of RDF and of one or more binders. Such manufactured item may have the shape of small bricks, bricks, blocks, small blocks, kerbs, interlocking paving blocks, panels, tiles, prefabricated slabs, beams, elements for walls, modular building elements, indoor and outdoor cladding elements, blocks, rocks, supports. Moreover, a process for the manufacture of an item for the building industry is disclosed, from bottom ash and/or debris coming from incineration processes of municipal solid waste or of waste which may be assimilated thereto and/or of FDR wherein the ash and/or debris undergo an oxidation process of the amphoteric metals and mixed with a binder.

Abstract: A sorbing granular material (20) is provided including a plurality of particles of granular material (5). The particles of granular material (5) are mixed at least partly with magnetizable particles (10), so that in case of magnetization of the magnetizable particles (10), the particles of granular material (5) form a compacted sorbing granular material (20) based on magnetic attracting forces between the magnetizable particles (10). The compaction is reversible. In addition, a process for producing a sorbing granular material (20) is provided.

Abstract: A controlled release carvedilol formulation for less frequent, preferably once daily administration is described. The controlled release formulation comprises a therapeutically effective amount of carvedilol or a pharmaceutically acceptable salt thereof, a matrix forming polymer, a solubility enhancer and a pharmaceutically acceptable carrier. In one embodiment, a controlled release formulation having a therapeutically effective amount of carvedilol is contained in two or more subunits having different release profiles. The controlled release formulation is usable in the treatment and/or prophylaxis of one or more conditions such as cardiovascular disorders.

Abstract: A method for producing a long fiber nonwoven fabric includes (a) melting resin containing polyphenylene sulfide as main component, discharging it from a spinneret, solidifying resulting filaments by cooling and stretching the filaments by pulling them out of an ejector at a spinning speed of 3,000 m/min or more while heat-treating as the filaments travel to the ejector outlet to provide a long fiber; (b) collecting the long fiber on a moving net to form a nonwoven web; and (c) subjecting the nonwoven web to thermal bonding.

Abstract: Useful articles are produced from shredded post-industrial (scrap), including post-consumer automotive interior trim parts obtained from vehicles. Feedstock is shredded into a fluff and mixed with an isocyanate prepolymer adhesive composition. The mixture may be placed into a mold, onto a continuous web or between laminating rolls to cure the mixture under pressure. The curing step can take place at room or elevated temperatures and only requires moisture either from the atmosphere or present in the shredded scrap or fluff. The articles produced may natural wood sheets such as Luan or wood composite boards currently adhered with urea-formaldehyde or phenol-formaldehyde resins. Other applications include structural or non-structural parts such as bulk heads, roofs, floors or vertical walls used in automotive vehicles, tractor trailers, recreational vehicles or marine vessels.

Abstract: A method of forming a calcium chloride and aggregate composition includes providing a calcium chloride compound, adding an aggregate into the calcium chloride compound, and mixing the aggregate and calcium chloride compound to establish a mixed composition having the aggregate substantially uniformly suspended in the calcium chloride compound. The aggregate may comprise any suitable aggregate material, such as sand, salt or rock salt or the like. The aggregate may be mixed with the calcium chloride when the calcium chloride is in a paste form so as to substantially uniformly mix or blend the aggregate and calcium chloride and to substantially uniformly suspend the aggregate in the calcium chloride paste.

Abstract: The invention relates to functional spunbonded fabrics incorporating fibers made from non-fusible polymers containing one or more functional additives. The fibers are interwoven and interlocked to form a firm fleece composite, have different lengths, and have aspect ratios above 1,000. The fibers have a mean diameter of 0.1 to 500 micrometres and diameter variations within a fiber and/or among each other of at least 30%. The fibers contain more than 40 wt % of finely distributed functional additives in solid and/or liquid form. The spunbonded fabric is produced from a spinning solution containing the non-fusible polymer dissolved in a direct solvent and at least one functional additive. The spinning solution is extruded out of a spinneret, and the resulting strands are drawn in the longitudinal direction to form filaments or fibers, stabilized and laid down to form a fleece fabric. Exemplary spunbonded fabrics include clothing, technical textiles and filters.

Abstract: Silicon nitride materials with high strength, fracture toughness values, and Weibull moduli simultaneously, due to unique large grain reinforcing microstructures and well engineered grain boundary compositions. The invention demonstrates that, surprisingly and contrary to prior art, a silicon nitride material can be made which simultaneously has high strength above about 850-900 MPa, a Weibull above about 15 and high fracture toughness (above about 8 and 9 MPa·m1/2), and has reinforcing grains longer than 5 ?m, typically longer than 10 ?m in the microstructure without compromising its properties and reliability. The product of this invention can be processed using a variety of densification methods, including gas-pressure sintering, hot pressing, hot isostatic pressing, but is not limited to these, and does not require multiple heat treatments for all of these features to be achieved.

Abstract: Herein provided is a method for easily preparing a sustained release tablet which contains an orally administrable medicinal component, while maintaining the uniformity of the content of the medicinal component. The method comprises mixing (1) a granulated product A obtained by granulating an excipient and an enteric coating agent while spraying thereon with a solution or a suspension containing an orally administrable medicinal component, with (2) a composition B containing a hydrogel-forming substance; and then compressing the resulting mixture into a tablet.

Abstract: Granules for a friction material is produced by: granulating a mixture including a friction modifying granular material and a resin binder in a fluidized bed under a presence of a liquid including a water-soluble or water-dispersible binder. The granules have a particle size of from 100 to 2000 ?m, an angle of repose of 40° or less, and a compression breakage strength of 10 MPa or less. The friction material is obtained by using the granules.

Abstract: The present invention resides in one aspect in a building material that comprises wood and a composite polymeric material that is combined with the wood in a heterogenous admixture. The composite polymeric material incorporates fibers in a polymeric matrix. The fibers can be chopped, continuous, or combinations thereof. In addition, the fibers can be unidirectionally oriented and/or randomly oriented. Suitable fibers for use in the composite polymeric material are glass, polymers, carbon, combinations thereof, and the like. However, the present invention is not limited in this regard as other fibers known to those skilled in the pertinent art to which the invention pertains can be used without departing from the broader aspects of the present invention. Suitable polymeric material for the polymeric matrix include thermoplastic polymers, thermosetting polymers, or a combination of thermosetting and thermoplastic polymers.

Abstract: A method for producing leather pellets, and a method for producing compound granules from leather pellets and a polymer material, for use in molded parts or films. The leather pellets are produced through the following steps: Shavings, crust leather remnants and finished leather waste are obtained as waste products in leather production and finished leather processing; the shavings, crust leather remnants and finished leather waste are milled into ground leather stock comprising leather fibers; the ground stock is pressed into leather pellets; and the leather pellets are dried to a residual moisture content of no more than 30% by weight. The leather pellets can be mixed with a polymer material at a ratio of 10-95% by weight and bonded to one another and shaped forming compound granules. The compound granules can be used to produce molded parts by injection molding or films by calendering.

Abstract: The present invention relates to an improved insulation fiber material on the basis of mineral wool, as well as to a method for producing said improved insulation material.

Abstract: Provided is a tablet having a high content of 2-[[6-[(3R)-3-amino-1-piperidinyl]-3,4-dihydro-3-methyl-2,4-dioxo-1(2H)-pyrimidinyl]methyl]-4-fluorobenzonitrile (compound (A)) or a salt thereof as a pharmaceutically active component. A tablet containing compound (A) or a salt thereof, and a fluidizer, which has a compound (A) content of 35-50 weight %.

Abstract: A sintered ferrite magnet comprising (a) a ferrite phase having a hexagonal M-type magnetoplumbite structure comprising Ca, an element R which is at least one of rare earth elements and indispensably includes La, an element A which is Ba and/or Sr, Fe, and Co as indispensable elements, the composition of metal elements of Ca, R, A, Fe and Co being represented by the general formula of Ca1-x-yRxAyFe2n-zCoz, wherein the atomic ratios (1-x-y), x, y and z of these elements and the molar ratio n meet the relations of 0.3?(1-x-y)?0.65, 0.2?x?0.65, 0?y?0.2, 0.03?z?0.65, and 4?n?7, and (b) a grain boundary phase indispensably containing Si, the amount of Si being more than 1% by mass and 1.8% or less by mass (calculated as SiO2) based on the entire sintered ferrite magnet, and its production method.

Abstract: An uncompounded polyolefin powder is disclosed, having a particle size distribution such that D95 is less than 355 ?m and (D90?D10)/D50 is less than 1,2, where D95, D90, D50 and D10 are defined such that 95 vol %, 90 vol %, 50 vol % or 10 vol % of the polymer particles have a diameter of less than D95, D90, D50 and D10 respectively, A process for making the powder is also disclosed.

Abstract: Disclosed are a bagasse composite, a method for preparing the composite, and an interior material using the same. More particularly, the composite includes 55-75 wt % of fibers and 25-45 wt % of thermoplastic polymer, wherein the fibers are obtained from bagasse and have a particle size of 40-120 mesh, and a length to diameter ratio of 3:1 to 5:1. Thus, the composite shows a high strength, and is not swelled. Also, the disclosed composite has similar natural texture and patterns to natural wood, and can be used for manufacturing a product capable of substituting for various interior materials and treated wood.

Abstract: A method of producing a lithium-ion battery anode comprising: (a) providing an anode active material; (b) intercalating or absorbing a desired amount of lithium into this anode active material to produce a prelithiated anode active material; (c) comminuting the prelithiated anode active material into fine particles with an average size less than 10 ?m (preferably sub-micron and more preferably <200 nm); and (d) combining multiple fine particles of prelithiated anode active material with a conductive additive and/or a binder material to form the anode. The battery featuring such an anode exhibits an exceptionally high specific capacity, an excellent reversible capacity, and a long cycle life.

Abstract: An imitation metal engineering plastic composite material and a preparation method of the same relate to a polymer composite material. Plastic and metal are combined while maintaining the advantages of the imitation metal engineering plastic composite material and the preparation method thereof. The composition of the composite material comprises an engineering thermoplastic, a high-density filler, a mineral powder, a glass fiber, a toughener, a coupling agent, a lubricant and an antioxidant. The composite material features a high density, a high mechanical performance, an excellent thermal deformation temperature, and good plastic injection molding manufacturability. The method of combining the coupling agent and the optimal conditions of the particles are adopted to make the manufacturing simpler and easier, and a general twin-screw granulator can be used for producing granules, and a general plastic injection molding machine can be used in the plastic injection molding process.

Abstract: Disclosed are water-dispersible fibers derived from sulfopolyesters having a Tg of at least 25° C. The fibers may contain a single sulfopolyester or a blend of a sulfopolyester with a water-dispersible or water-nondispersible polymer. Also disclosed are multicomponent fibers comprising a water dispersible sulfopolyester having a Tg of at least 57° C. and a water non-dispersible polymer. The multicomponent fibers may be used to produce microdenier fibers. Fibrous articles may be produced from the water-dispersible fibers, multicomponent fibers, and microdenier fibers. The fibrous articles include water-dispersible and microdenier nonwoven webs, fabrics, and multilayered articles such as wipes, gauze, tissue, diapers, panty liners, sanitary napkins, bandages, and surgical dressings. Also disclosed is a process for water-dispersible fibers, nonwoven fabrics, and microdenier webs.

Abstract: An improved friction material includes inorganic fibers formed from a melt of volcanic black rock and additives. The black rock comprises silica oxide, magnesium oxide, potassium permanganate, aluminum oxide, iron oxide, silicon dioxide, titanium dioxide, sodium oxide, and boron. The additives include potassium permanganate and boron. As a result of their composition, the fibers are temperature resistant and lightweight, yet strong. The fibers exhibit a melting point between 1500 degrees centigrade and 1650 degrees centigrade, a working range of ?130 degrees centigrade to 700 degrees centigrade, a density of 1.8 g/cc, a surface density between 160 g/m2 and 350 g/m2, and a tensile strength between 500 lbf/in2 and 1800 lbf/in2. The friction material is made from layers of the inorganic fibers and a bonding material and has a working temperature between 250 degrees centigrade and 650 degrees centigrade, with a melting point of approximately 1200 degrees centigrade.

Abstract: An animal bedding system having a hydrophilic fiberboard substrate and hydrophobic fiberboard bedding disposed on top of the fiberboard substrate. The fiberboard bedding can be hogged or chopped to provide a soft nesting area for the animal and also keep the animal dry.

Abstract: The present invention relates to novel articles, especially non-woven articles comprising fibres and/or fibrids. It also relates to novel fibres and fibrids and to a process for obtaining these fibres and fibrids.

Abstract: This invention relates to non-woven fabrics, in particular to a method of making fabrics by spraying fibres onto a support member, and to a mixture of fibres, binder and diluent for use in the method of the invention. The present invention has the objective of providing a composition that can be used to produce fabrics having an improved texture and which gives excellent results when sprayed as an aerosol using a propellant.

Abstract: A method for forming a filtration media from waste media includes combining the waste media with a binder to form a dry mixture, adding a liquid composition to the dry mixture to form a slurry, and extruding the slurry to form a filtration media. The waste media may include fines or oversized media resulting from a prior media production process that have been subjected to a hydration process. The waste media may be ground and sized prior to combining it with the binder. The binder may include clay, cellulose materials, and combinations thereof. The liquid composition may include water and optionally one or more additional additives selected from the group consisting of permanganates, acids, bases, amines and combinations thereof. In one embodiment, the slurry is extruded into a honeycomb matrix.

Abstract: The invention pertains to dispersible tablets comprising as active ingredient 4-[3,5-bis(2-hydroxyphenyl)-[1,2,4]triazol-1-yl]benzoic acid or pharmaceutically acceptable salt thereof in an amount of from 5 to 40% in weight by weight of the total tablet.

Abstract: A method for forming a transparent ceramic preform in one embodiment includes forming a suspension of oxide particles in a solvent, wherein the suspension includes a dispersant, with the proviso that the suspension does not include a gelling agent; and uniformly curing the suspension for forming a preform of gelled suspension. A method according to another embodiment includes creating a mixture of inorganic particles, a solvent and a dispersant, the inorganic particles having a mean diameter of less than about 2000 nm; agitating the mixture; adding the mixture to a mold; and curing the mixture in the mold for gelling the mixture, with the proviso that no gelling agent is added to the mixture.

Abstract: The method of fabricating a stone-hard, mold-free, scented and decorative bead includes the steps of drying flower petals, finely chopping the dried petals, simmering the finely chopped petals, cooking off excess fluid from the simmered petals and straining to form a pulp, spreading the pulp and placing in a food dehydrator on low setting to form a dried pulp, milling the dried pulp m a flour mill on highest/finest setting to form a petal powder, mixing the petal powder with gum arabic solution and either flower oil or olive oil to form a clay composition, using either a form or hand rolling the clay composition to form a bead, piercing the bead with a pin, rotating the bead on the pin to form a dned bead, removing the dried bead from the pin to form a pierced bead, determining if a smoother surface is desired, if so buffing with final finish sandpaper, and determining if a shiny bead is desired, if so touching lightly petroleum jelly onto the pierced bead and wiping off to shine.

Abstract: An inorganic nanowire having an organic scaffold substantially removed from the inorganic nanowire, the inorganic nanowire consisting essentially of fused inorganic nanoparticles substantially free of the organic scaffold, and methods of making same. For example, a virus-based scaffold for the synthesis of single crystal ZnS, CdS and free-standing L10 CoPt and FePt nanowires can be used, with the means of modifying substrate specificity through standard biological methods. Peptides can be selected through an evolutionary screening process that exhibit control of composition, size, and phase during nanoparticle nucleation have been expressed on the highly ordered filamentous capsid of the M13 bacteriophage. The incorporation of specific, nucleating peptides into the generic scaffold of the M13 coat structure can provide a viable template for the directed synthesis of a variety of materials including semiconducting and magnetic materials.

Abstract: A method of forming a nonwoven material, the method comprising: receiving fibrous material comprising thermo-plastic fibers; processing the fibrous material to produce short fibers; adding the short fibers to a preformed web; and heating and optionally compressing the preformed web to form a nonwoven material.

Abstract: A composite article includes cellulosic strands and binder, the strands having been extracted to remove hemicellulose. In certain embodiments, the cellulosic strands are wood strands. The article may have reduced production of volatile organic compound emissions compared to the same article made with non-extracted strands. Also, the article may have improved performance after exposure to moisture. A method of manufacturing a composite article comprising extracting cellulosic strands to remove hemicelluose, and forming a composite which includes the strands and a binder. In certain embodiments, the extraction is a hot water extraction.

Abstract: A bale of elastomer composite is formed of elastomer and filler, the bale having a void volume of at least 3%. In another aspect, a container is provided, at least a portion of the container being occupied by elastomer composite pieces of elastomer and filler, wherein the occupied portion of the container has a void volume of at least 3%.

Abstract: Disclosed is a method for manufacturing environment-conservative plant fiber as substitute for wood, paper, and plastics, which includes the steps of having agricultural surpluses and/or plant wastes ground and then mixed with starch, a plasticizer, and additives according to desired percentages by using a high speed mixing machine, deposited into a dual screw machine for pressurization and blending, pulverized by a pulverization machine, processed by an extrusion machine, subjected to temperature control by using a mold temperature controller, and then deposited in a cooling system for cooling and pelletization by airstreams to complete workable environment-conservative plant fiber particles. The particles can be used to substitute wood, paper, and plastics for making various products. The manufacturing process of the method releases completely no waste water and waste gas. The products made of the particles are completely recyclable for re-use.

Abstract: The present invention is directed to articles comprising nanofibers. The nanofibers, having a diameter of less than 1 micron, may comprise a significant number of the fibers in one layer of the web contained by the article. Preferably, the nanofibers are produced in a melt film fibrillation process. The articles include diapers, training pants, adult incontinence pads, catamenials products such as feminine care pads and pantiliners, tampons, personal cleansing articles, personal care articles, and personal care wipes including baby wipes, facial wipes, and feminine wipes.

Abstract: Tuftable nonwoven fabric compositions and methods for their preparation are provided. Fabric compositions may include a nonwoven web of continuous filaments, and an emulsion latex binder composition having an emulsion latex and a crosslinker. Exemplary techniques for constructing a nonwoven composition include forming continuous filaments of thermoplastic polymer, placing the filaments on a moving belt to form a nonwoven web, and treating the web with an emulsion latex binder composition having an emulsion latex and a crosslinker.

Abstract: Methods are disclosed in which two or more forming chambers are used to process inorganic fibers by gravity-laying methods. The methods may comprise using a first forming chamber to open inorganic fibers and using a second forming chamber to process the opened inorganic fibers, optionally to blend the opened inorganic fibers with additional inorganic fibers and/or with particulate additives, and to collect the inorganic fibers as a mat. The methods may comprise using a first forming chamber to form a first inorganic fiber layer and a second forming chamber to form a second inorganic fiber layer, and consolidating the first and second inorganic fiber layers so as to provide a multilayer gravity-laid inorganic fiber web.

Abstract: Monolithic gravity-laid inorganic fiber webs that are greater than about 5 cm in thickness are disclosed. Methods of making and using such webs are also disclosed. The gravity-laying process comprises mechanically separating inorganic fibers and collecting the fibers as a monolithic thick web, and may comprise blending of multiple types of inorganic fibers and/or blending of inorganic particulate additives with the fibers.

Abstract: Methods are disclosed by which melt-formed inorganic fibers may be processed to form a gravity-laid inorganic fiber web. The gravity-laying process comprises mechanically separating the melt-formed inorganic fibers and collecting the fibers, and may comprise blending the melt-formed inorganic fibers with other inorganic fibers and/or with inorganic particulate additives.

Abstract: A process for making composite products from waste material comprises the steps of a) obtaining fibrous material produced by the thermal treatment of waste materials with pressurized steam; b) mixing the fibrous material with a binding material; c) forming the resulting mixture into a shape; d) pressing the shaped mixture under pressure; and e) hardening the mixture; wherein the process also comprises the steps of the separating out the fibrous material and deodorizing the fibrous material. The waste material may be domestic bin liner waste.

Abstract: A tablet composition, which in an easy, flexible and reproducible manner can be loaded with a relatively high amount of a pharmaceutically acceptable oily substance, may be produced in large-scale batches and stored until use; and tablets loaded with a pharmaceutically acceptable oily substance as well as a method for the preparation thereof. The tablet composition comprises a release enhancing agent and provides high and/or consistent release of the pharmaceutically acceptable oily substance, in particular release of a pharmaceutically acceptable, but substantially water-insoluble, oily substance.

Abstract: A method is described for recycling used clothes and domestic textile. After examining and sorting the received material (2) and subdividing the received material in a large number of mutually different material streams (3) with to a higher or lesser extent profit making product (WMP) and to a higher or lesser extent loss making product (VGP), the method comprises the steps of: selecting one or more of the loss making products; possibly removing, at least partly, undesirable materials such as for instance rubber, glue, elastic; reducing the size of the selected product; mixing the reduced product with a resin; pressing the resulting mass in a desired shape; —allowing the mass pressed in shape to harden.

Abstract: A make-up composition is for the skin, is prepared by a process and used in a makeup method. The cosmetic composition is intended for making up the skin. The composition has from 75 to 98% by weight of a powder or a mixture of powders, as well as at least one cosmetically acceptable fatty phase having at least one oil. The composition additionally includes a block copolymer of at least one styrene polymer and of at least one olefin polymer, the olefin being other than styrene, or a mixture of these block copolymers.