Class / Patent application number | Description | Number of patent applications / Date published |
106286500 | Aluminum containing | 12 |
20080264299 | Aluminium Oxide Dispersion - Aluminium oxide dispersion, which is stable in a pH range 5 from 5 to 9 and has an aluminium oxide content of at least 40 wt. %, obtainable by dispersing pyrogenically produced aluminium oxide particles in an aqueous phase, wherein one or several at least dibasic hydroxycarboxylic acids present dissolved in the dispersion and at least one salt of a 10 dialkali metal hydrogen phosphate and/or alkali metal dihydrogen phosphate are added to the aqueous phase each mutually independently in a quantity of 0.3−3×10 | 10-30-2008 |
20090173253 | Coating materials containing mixed oxide nanoparticles consisting of 50-99.9 % by weight al203 and 0.1-50 % by weight oxides of elements of main groups l or ll of the periodic table - The invention relates to coating materials containing mixed oxide nanoparticles, an organic binder and possibly additives, wherein said coating materials contain the nanoparticles consisting of 50-99.9% by weight aluminium oxide and 0.1-50 % by weight oxide of elements of the I or II main group of the periodic system. The mixed oxide nanoparticles can also have a surface modified by another coating agent, preferably silane or siloxane. The inventive mixed oxide nanoparticles provide coating materials or to coatings with an improved scratch resistance. | 07-09-2009 |
20090205536 | Coating Composition for Low-Refractive Index Anti-Reflection Film - A coating composition comprising zeolite nanocrystals, a zeolite precursor solution, and wetting agents in a mixture of solvents is provided. The coating composition can be used to form a transparent layer having a low refractive index on a substrate for antireflection effect. | 08-20-2009 |
20100107929 | GRANULATED KAOLIN COMPOSITIONS AND PROCESSES FOR THEIR PRODUCTION - Disclosed herein are granulated kaolin compositions exhibiting at least one of improved material handling properties, low dusting during transit, easy make-down into mineral-water slurries, and requiring less energy to produce than spray dried kaolin products. The granulated kaolin compositions may, in one embodiment, be characterized by a moisture content ranging from about 12% to about 23% by weight relative to the total weight of the composition. In another embodiment, the granulated kaolin compositions may have an average granule size of greater than about 10 mesh. Also disclosed herein are granulated kaolin compositions having a moisture content ranging from about 12% to about 23% by weight relative to the total weight of the composition, wherein the composition is friable when subjected to a shear force. Further disclosed herein is a method for producing granulated kaolin compositions comprising mixing at least one kaolin slurry with at least one predispersed spray dried kaolin and agglomerating the resulting mixture. Still further disclosed herein is a system for producing granulated kaolin compositions comprising a first zone for mixing at least one kaolin slurry with at least one predispersed spray dried kaolin and a second zone for agglomerating the resulting mixture. | 05-06-2010 |
20100154676 | Inorganic Artificial Marble and Composition for Inorganic Artificial Marble - The present invention provides an inorganic artificial marble having excellent impact strength and weather resistance. The inorganic artificial marble can be a substitute for natural stone and used as an exterior finishing material. | 06-24-2010 |
20120118203 | SUSPENSION FOR PRODUCING A LAYER INCREASING THE COEFFICIENT OF FRICTION, MOLDED PART HAVING SUCH A LAYER INCREASING THE COEFFICIENT OF FRICTION, METHOD FOR THE PRODUCTION THEREOF, AND USE THEREOF - The invention relates to a suspension for producing a friction-increasing layer on a substrate, which comprises a liquid suspension medium, a predominantly inorganic binder or precursor compounds thereof and suspended hard material particles. The invention further relates to a shaped body comprising a substrate and a friction-increasing layer which has been applied to at least part of the surface of the substrate and comprises a predominantly inorganic binder matrix and hard material particles embedded therein, where the thickness of the binder matrix is less than the average particle size of the hard material particles so that the hard material particles project from the binder matrix and where the friction-increasing layer has been formed from a suspension according to the invention. The invention likewise relates to a process for producing the abovementioned shaped bodies and also their use for producing press or clamp connections and also as securing element. | 05-17-2012 |
20120132107 | MODIFIER OF LITHIUM ION BATTERY - A modifier of a lithium ion battery includes a clear solution fabricated from a phosphorous source having a phosphate radical, a trivalent aluminum source, and a metallic oxide provided in a liquid phase solvent. A molar ratio of the trivalent aluminum source, the metallic oxide, and the phosphorous source is set by (Mol | 05-31-2012 |
20140261080 | RARE EARTH SILICATE ENVIRONMENTAL BARRIER COATINGS - A vapor deposition method may include applying a first electron beam to vaporize a portion of a first target material comprising a rare earth oxide, where the first electron beam delivers a first amount of energy. The method also may include applying a second electron beam to vaporize a portion of a second target material comprising silica, where the second electron beam delivers a second amount of energy different from the first amount of energy. In some examples, the second target material is separate from the first target material. Additionally, the portion of the first target material and the portion of the second target material may be deposited substantially simultaneously over a substrate to form a layer over the substrate. A system for practicing vapor deposition methods and articles formed using vapor deposition methods are also described. | 09-18-2014 |
20150114259 | MIXING AND ADJUSTING METHOD FOR FOUNDRY SAND - Provided is a mixing and adjusting method for foundry sand that uses a sand muller, having weight measuring means for measuring a weight of the foundry sand to be mixed, water content measuring means for measuring a water content of the foundry sand to be mixed, water pouring means for pouring water into the foundry sand, and CB value measuring means for measuring a CB value of the foundry sand during mixing. | 04-30-2015 |
20160017167 | Scratch Repair Coating - A repair coating for hardwood flooring is provided that effectively repairs scratches in the flooring, but while removing the distinctive white appearance of repairs in flooring having aluminum oxide in the flooring. The coating is formed with an acrylate and a solvent, and can be applied directly to the scratch and cured using UV light, such as sunlight, to fill and repair the scratch in the flooring. | 01-21-2016 |
20160061806 | ASSESSMENT METHOD - The present invention relates, inter alia, to method of assessing the reactivity of a polymerizable material (especially an aluminosilicate) in forming a geopolymer. The present invention also relates to methods of forming a geopolymer, and to geopolymers formed by the method. The method of assessing the reactivity of the polymerizable material may include first assessing whether the polymerizable material is layered or particulate. Next, if the polymerizable material is layered, the method may include measuring the moles of polymerization network forming elements in an amount of polymerizable material, whereby the moles of polymerization network forming elements is indicative of the reactivity of the polymerizable material in forming a geopolymer. Alternatively, if the polymerizable material is particulate, the method may include measuring the molar charge of polymerization network modifiers in an amount of polymerizable material, whereby the molar charge of polymerization network modifiers is indicative of the reactivity of the polymerizable material in forming a geopolymer. | 03-03-2016 |
20160176753 | GLASS STRANDS CAPABLE OF REINFORCING ORGANIC AND/OR INORGANIC MATERIALS | 06-23-2016 |