Class / Patent application number | Description | Number of patent applications / Date published |
106204010 | With element or inorganic compound except water | 15 |
20100199885 | ADHESION AND COHESION MODIFIERS FOR ASPHALT - The present invention relates to a bitumen or asphalt formulation for the pavement of road surfaces, said formulation comprising a mixture of bitumen and aggregates, and an additive package evenly distributed therein, said additive package comprising from about i) 10 to 60% by weight of an amine or modified amine surfactant, ii) from about 20 to 90% of an asphalt rheology modifying component. | 08-12-2010 |
20110073009 | Moldable Matrix - A moldable matrix comprises a mixture of magnesium chloride, magnesium oxide, sodium hexametaphosphate, and/or sodium pyrophosphate. The matrix can be used as an environmentally-friendly substitute to conventional construction material such as plastics and woods. | 03-31-2011 |
20130081554 | DISTRIBUTION OF STARCH IN COMPOSITION OF BUILDING PRODUCTS - Building panels such as ceiling tiles have compositions including starch as a binder and a coagulant for the starch. The building panels also can include a fibrous material and a filler. In one aspect, the starch is coagulated by the coagulant resulting in the starch being distributed substantially uniformly through a thickness of the building panels, whereby certain physical properties of the building panels and a wet-felting process for manufacturing the building panels are improved. The coagulant can comprise at least one aluminum salt. In the wet-felting process for manufacturing the ceiling tiles, a slurry comprising an aqueous dispersion of at least one fibrous material, at least one filler material, at least starch as a binder and a coagulant for the starch is delivered onto a foraminous wire frame. The slurry is dewatered to form a basemat and the basemat is dried to remove any residual moisture. | 04-04-2013 |
20130087071 | METHOD FOR PRODUCING BN-BASED NANOPARTICLES AND PRODUCTS THEREFROM - A method of forming boron nitride nanoparticles. A plurality of precursor molecules comprising boron, nitrogen and hydrogen may be decomposed in a first heating zone to form a plurality of gaseous molecules that contain bonded boron and nitrogen, followed by heating to a second, higher temperature thereby causing the gaseous molecules to react and nucleate to form a plurality of boron nitride nanoparticles. Depending on processing temperatures, the boron nitride nanoparticles may include amorphous forms, crystalline forms, or combinations thereof. Precursor molecules may include ammonia borane, borazine, cycloborazanes, polyaminoborane, polyiminoborane, and mixtures thereof. The boron nitride nanoparticles may be incorporated into a variety of dispersions, composites, and coatings; and in one embodiment, may be a component of a propellant, wherein the boron nitride nanoparticles may confer a range of advantages to gun barrels in which such propellants may be fired. | 04-11-2013 |
20130092048 | TRIGLYCERIDE COMPOSITIONS USEFUL FOR PREPARING COMPOSITE PANELS AND APPLICATIONS THEREOF - Composite panels may be prepared using a moisture resistance additive having a formulation that includes a triglyceride having a saponification value of at least 150 and an iodine value of at least 35. The additive may be used in the form of a water emulsion. The water emulsion may be prepared by dispersing the components of the additive formulation under conditions sufficient to at least partially saponify the triglyceride. The moisture resistance additive can impart resistance to moisture absorption and thickness swelling to composite panels prepared therewith. | 04-18-2013 |
20130125784 | Wet-End Manufacturing Process for Bitumen-Impregnated Fiberboard - A process for manufacturing fiberboard by preparing a fiber slurry mixture including containing cellulose fibers and water then atomizing a liquid bituminous material, such as asphalt. The liquid bituminous material is atomized by mixing it with a pressurized gas, such as compressed air, forming a mist comprising droplets of bituminous material having a diameter between 20 microns and 50 microns. A water spray solidifies the bituminous material droplets thereby forming bituminous particles which fall into the fiber slurry within the spray chamber. From there the slurry is sheared, dewatered, and dried, forming a finished fiberboard. | 05-23-2013 |
20140053756 | METHOD FOR PRODUCING CELLULOSE-CONTAINING MASS FOR PRODUCING COMPOSITE MATERIAL - The invention relates to a method for producing a cellulose-containing mass for forming a cellulose-containing composite material comprising following steps: (a) providing an input material comprising at least one cellulose-containing raw material and a liquid content; (b) macerating the cellulose-containing raw material in the input material; and (c) homogenizing the input material to obtain the cellulose-containing mass for forming cellulose-containing composite material by using an apparatus selected from a homogenizer, a refiner and a wet-milling apparatus. According to a further embodiment of the present invention cellulose of different types is added to the input. Moreover a method for producing a composite material that is based on said cellulose-containing mass is disclosed as well as a product produced of said composite material. | 02-27-2014 |
20140230692 | Methods for Substrate Coating and Use of Additive-Containing Powdered Coating Materials in Such Methods - The present invention relates to the use of a particle-containing powdered coating material, wherein an additive has been at least partially applied to the surface of the particles, in coating methods, in particular in cold gas spraying, flame spraying, high-speed flame spraying, thermal plasma spraying and non-thermal plasma spraying. Furthermore, the present invention relates to coating methods, in particular the above-named methods, using the powdered coating material according to the invention. | 08-21-2014 |
20150135991 | METHOD OF DISSOLVING CELLULOSE - A method of dissolving cellulose, comprising: firstly heating and activating the cellulose by using a heating apparatus, and then dissolving by using a solvent. The temperature of the heating and the activating is 130° C.-270° C., the time period of the heating is 0.1-100 hours, and the solvent is an aqueous solution including 6 wt %-12 wt % sodium hydroxide and 0.1 wt %-6 wt % zinc oxide. The method of dissolving comprises: heating and activating the cellulose with a degree of polymerization of DP=300-700, dispersing the cellulose into the solvent, and freezing under a temperature of −10˜-30° C. for 0.1-50 hours; then unfreezing under a condition of no more than 32° C., and standing or stirring by machine during the process of unfreezing so as to dissolve and obtain a cellulose solution with a concentration of 3 wt %-12 wt %. The obtained cellulose solution has a good solubility and stability that maintains a relatively good stability after being stood under a temperature of −8 to 32° C. for a few days. The cellulose solution can be used in the preparation of fibers, films or sponges, and is suitable for industrial production. | 05-21-2015 |
106204200 | Elemental titanium or inorganic titanium compound | 3 |
20120118202 | COVER COATING COMPOSITION FOR GLASS LINING - Provided is a cover coating composition for a glass lining comprising a frit constituting the composition which mainly includes 65 to 75 mol % of SiO | 05-17-2012 |
20130061774 | COATINGS CONTAINING NANOCRYSTALLINE CELLULOSE, PROCESSES FOR PREPARATION AND USE THEREOF - This invention relates to coatings for wood and improvement in the surface properties of cured coatings of the invention. The invention further relates to a method for improving at least one property such as mechanical, optical or a combination thereof and to a process for preparing a nanocrystalline cellulose-containing hydrodispersible, hydrosoluble and hydrophobic wood coating. | 03-14-2013 |
20130092049 | WHITE INORGANIC COATING COMPOSITION, AND DEVICE EMPLOYING A COATING MADE OF THE COMPOSITION - The disclosure provides a white inorganic coating composition, and a device employing a coating made of the composition. The white inorganic coating composition includes a first inorganic material with a refractive index of less than 1.6, a second inorganic material with a refractive index of more than 2.3, and an inorganic blue pigment. | 04-18-2013 |
106204300 | Elemental silicon or inorganic silicon compound | 3 |
20120012031 | PAPER FILLER COMPOSITION - A method for preparing an aqueous suspension comprising microfibrillated cellulose and inorganic particulate material, the method comprising a step of microfibrillating a fibrous substrate comprising cellulose in an aqueous environment in the presence of an inorganic particulate material. | 01-19-2012 |
20120216707 | BENTONITE BARRIER COMPOSITIONS AND METHODS OF USE IN CONTAINMENT APPLICATIONS - The present invention relates to improved bentonite barrier compositions having enhanced low permeability over time in containment applications. Of the many embodiments provided herein, one embodiment includes a bentonite barrier composition comprising: bentonite and a polyanionic low molecular weight polymer. | 08-30-2012 |
20120216708 | SILICON CARBIDE POWDER COMPOSITION AND METHOD OF PRODUCING SILICON CARBIDE MOLDED PRODUCT USING SAME - A silicon carbide powder composition comprising a silicon carbide powder obtained by thermally decomposing a silicone cured product within a non-oxidizing atmosphere and an organic binder. The composition can be sintered to form a silicon carbide molded product having a complex shape even without the inclusion of a sintering assistant. | 08-30-2012 |