Additive Contains Metal, Boron, Or Silicon Patents (Class 423/275)
-
Patent number: 5698341Abstract: A carbon material for use in a lithium secondary battery, which is obtained by graphitization conducted in the presence of a boric compound so as to contain boron in an amount ranging from 1,000 ppm to 30,000 ppm and which, when subjected to X-ray diffractometry, exhibits an interplanar spacing of 002 surface (d.sub.002) of not greater than 0.338 nm, a crystallite size along c-axis (Lc) of at least 35 nm, a crystallite size along a-axis (La) of at least 50 nm and a ratio of diffraction peak (101) to diffraction peak (100), designated as P.sub.101 /P.sub.100, of at least 1.0; a negative electrode and a lithium secondary battery each produced by using the above carbon material; and a process for producing the carbon material. This carbon material exhibits large charge and discharge capacities, so that it can provide a negative electrode for use in a lithium secondary battery which is excellent in charge and discharge cycle characteristics.Type: GrantFiled: August 9, 1996Date of Patent: December 16, 1997Assignee: Petoca, Ltd.Inventors: Toshio Tamaki, Yoshiyuki Nishimura
-
Patent number: 5658873Abstract: Sodium percarbonate is often used in the form of coated particles to increase its storage stability in detergents.Sodium percarbonate particles coated in accordance with the invention have a coating containing reaction products from the reaction of a dialkali metal tetraborate or alkali metal pentaborate with aqueous hydrogen peroxide. Preferred coating components are: perborax with the formula Na.sub.2 B.sub.4 O.sub.7 .multidot.H.sub.2 O.sub.2, where n =2 or 4.The coated sodium percarbonate particles are produced by coating the percarbonate particles using a solution containing the reaction products mentioned above.Detergent, bleaching and cleaning compositions containing sodium percarbonate particles coated in accordance with the invention are distinguished by very high stability in storage.Type: GrantFiled: October 2, 1995Date of Patent: August 19, 1997Assignee: Degussa AktiengesellschaftInventors: Birgit Bertsch-Frank, Claas-Juergen Klasen, Thomas Lieser, Klaus Mueller, Martin Bewersdorf
-
Patent number: 5650141Abstract: This invention provides a deodorant cosmetic stick product which has a translucent or transparent light transmitting appearance. The cosmetic stick has a content of ingredients such as sodium bicarbonate, propylene glycol, sodium stearate, Steareth-100, Pentadoxynol-200, and water. An invention deodorant cosmetic stick has excellent esthetics when applied underarm, such as smoothness and a comfortable dry feel, and without a visually perceptible residue.Type: GrantFiled: September 13, 1995Date of Patent: July 22, 1997Assignee: Church & Dwight Co., Inc.Inventors: Wolfgang R. Bergmann, Richard T. Murphy, Linda J. Lancaster
-
Patent number: 5628990Abstract: This invention provides cosmetic deodorant stick, roll-on and cream formulations. An invention deodorant product comprises an organic matrix having a dispersed solids phase which includes discrete crystallites of bicarbonate salt ingredient and particulate boron oxide desiccant ingredient. When an invention deodorant product is applied to a skin surface, the boron oxide reacts with moisture, and converts to boric acid which neutralizes any content of a strong basic irritant such as alkali metal carbonate which is present as an impurity in an alkali metal bicarbonate salt.Type: GrantFiled: October 25, 1995Date of Patent: May 13, 1997Assignee: Church & Dwight Co., Inc.Inventors: Richard T. Murphy, Wolfgang R. Bergmann
-
Patent number: 5587139Abstract: A powder is provided which may be used for alkali rechargeable batteries and a method for producing it. The powder includes boron containing nickel hydroxide particles having a generally spherical shape. The boron is present in an amount in the range of from 0.5 to 5.0 mol % B.Type: GrantFiled: June 7, 1995Date of Patent: December 24, 1996Assignee: Hyundai Motor CompanyInventor: Dong-Yup Shin
-
Patent number: 5508242Abstract: Ceramic compositions based on yttrium oxide contain a minor amount of a titanium oxide and are readily sintered into dense ceramic shaped articles well adopted for metallurgical applications.Type: GrantFiled: November 23, 1993Date of Patent: April 16, 1996Assignee: Rhone-Poulenc ChimieInventors: Jean-Francois Baumard, Marcel Boncoeur, Gilles Gasgnier, Louis Minjolle
-
Patent number: 5494652Abstract: A fine metal oxide powder is prepared by a method comprising the steps of (1) preparing a hydroxide precursor of a metal oxide, (2) mixing the precursor with an inorganic compound having a melting point lower than the crystallization temperature of the metal oxide, and (3) subjecting the resulting mixture to a high temperature thermal treatment to form the fine metal oxide powder.Type: GrantFiled: March 23, 1994Date of Patent: February 27, 1996Assignee: Eastman Kodak CompanyInventor: Jean C. Robert
-
Patent number: 5427756Abstract: In the process for the preparation of dicalcium phosphate dihydrate, which has a good compatibility with fluorine and stability to hydrolysis and causes the minimum possible after-thickening when used in toothpastes, by reaction of calcium carbonate suspended in water with an aqueous solution of orthophosphoric acid, precipitation of dimagnesium phosphate trihydrate, as a stabilizer, by reaction of aqueous solutions of a magnesium salt and of orthophosphoric acid in the presence of a basic compound and subsequent addition of tetrasodium pyrophosphate to the reaction mixture as a further stabilizer and final filtration, drying and grinding of the precipitate, 0.2 to 0.6% by weight of tetrasodium pyrophosphate, calculated with respect to the dicalcium phosphate dihydrate precipitated in the reaction mixture, is added to the aqueous reaction mixture.Type: GrantFiled: February 7, 1994Date of Patent: June 27, 1995Assignee: Hoechst AktiengesellschaftInventors: Franz-Josef Dany, Gerhard Kalteyer, Gerhard Nolte, Hedwig Prell, Hermann Schrodter
-
Patent number: 5422087Abstract: This invention provides a free-flowing alkali metal bicarbonate composition, which has a content of an acidic inorganic compound such as boron oxide (B.sub.2 O.sub.3) or phosphorus pentoxide (P.sub.2 O.sub.5). The acidic inorganic compound reacts with the residual hygroscopic alkali metal carbonate content of the bulk alkali metal bicarbonate powder to form alkali metal bicarbonate.Type: GrantFiled: February 28, 1994Date of Patent: June 6, 1995Assignee: Church & Dwight Co., Inc.Inventor: M. Stephen Lajoie
-
Patent number: 5348581Abstract: Unique compositions based on at least one crystalline rare earth sesquisulfide, well suited for the coloration of a wide variety of substrates, e.g., cosmetics, plastics, paints and rubbers, contain a dopant amount of at least one alkali/alkaline earth metal, at least a fraction of which being included within the crystal lattice of such at least one rare earth sesquisulfide.Type: GrantFiled: December 4, 1992Date of Patent: September 20, 1994Assignee: Rhone-Poulenc ChimieInventors: Thierry Chopin, Herve Guichon, Olivier Touret
-
Patent number: 5324353Abstract: A method for increasing the optical transmission characteristics of zinc sulfide in the visible and infrared portions of electromagnetic spectrum is described. Materials such as metals and, in particular, transition metals are diffused through the zinc sulfide material over a duration of time sufficient to cause the material to turn substantially water clear and substantially colorless.Type: GrantFiled: December 3, 1992Date of Patent: June 28, 1994Assignee: Raytheon CompanyInventors: Joseph M. Wahl, Randal W. Tustison, Thomas Y. Wong
-
Patent number: 5296210Abstract: A process for stabilizing sodium dithionite is disclosed, whereby a selected additive is used.Type: GrantFiled: December 31, 1992Date of Patent: March 22, 1994Assignee: Hoechst Celanese CorporationInventor: Donald M. Oglesby
-
Patent number: 5292495Abstract: A method is proposed for the preparation of porous calcium carbonate particles of which each of the particles is not an aggregate but has ink bottle-shaped pores each not communicating with the others. The method comprises: (a) blending particles of heavy calcium carbonate having a specific particle size distribution with from 0.1 to 0.3% by weight of a porosity-forming agent, e.g., sodium chloride; (b) calcining the powder blend at a temperature in the range from 800.degree. C. to 1000.degree. C. to decarbonate the calcium carbonate particles into particles of calcium oxide having pores developed therein; (c) slaking the particles of calcium oxide with steam to convert the calcium oxide particles into particles of calcium hydroxide; (d) drying the particles of calcium hydroxide at a temperature in the range from 100.degree. C. to 350.degree. C.; and (e) carbonating the dried particles of calcium hydroxide with carbon dioxide gas at a temperature in the range from 600.degree. C. to 750.degree.C.Type: GrantFiled: April 20, 1993Date of Patent: March 8, 1994Assignee: Kowa-Chemical Industry Co., Ltd.Inventors: Takayuki Nakajima, Masao Kanoh, Isao Sekiguchi, Yoshio Iwasaki
-
Patent number: 5256394Abstract: A method of imaging a corporeal situs by radiological techniques, comprising delivery to the corporeal situs of an imagingly effectively amount of a physiologically acceptable composition comprising a boron reagent. A variety of illustrative boron reagents is described, including iodinated boron salts, and boron-containing cyclophosphazene and polyphosphazene reagents having radiopaque character. The reagents and method of the present invention may be employed for a wide variety of radiological imaging applications, e.g., excretory urography, angiocardiography, and aortography.Type: GrantFiled: October 23, 1991Date of Patent: October 26, 1993Assignee: Boron Biologicals, Inc.Inventor: Bernard F. Spielvogel
-
Patent number: 5244644Abstract: A process for producing an alkali metal carbonate peroxyhydrate having improved storage stability by mixing particles of an alkali metal carbonate peroxyhydrate with an effective storage stability improving amount of a powdered fatty acid metal salt.Type: GrantFiled: March 5, 1992Date of Patent: September 14, 1993Assignee: Peroxid-Chemie GmbHInventor: Werner Doetsch
-
Patent number: 5183648Abstract: The invention concerns a process for preparing magnesia having reduced hydration tendency, wherein magnesia particles are treated with a solution of an inorganic acid, an organic acid an/or salts thereof, as well as hydration resistant magnesia thus obtained, a dry mixture for preparing magnesia based castables and magnesia based castables containing magnesia thus obtained.Type: GrantFiled: March 8, 1991Date of Patent: February 2, 1993Assignee: Shell Research LimitedInventor: Anthony J. Wolfert
-
Patent number: 5171555Abstract: A transparent, strong CsI alloy havign additions of monovalent iodides. Although the perferred iodide is AgI, RbI and CuI additions also contribute to an improved polycrystalline CsI alloy.Type: GrantFiled: January 24, 1991Date of Patent: December 15, 1992Assignee: The United States of America as represented by the United States Department of EnergyInventors: Hyoun-Ee Kim, Arthur J. Moorhead
-
Patent number: 4988671Abstract: Complex metal oxides are formed by calcining in molecular oxygen such as air at least one bimetallic complex of the formula A[BY] wherein A and B are metals and Y is a ligand associated with B. The bimetallic complexes are precipitated from aqueous solution by a transposition reaction of AX and M[BY] wherein X is a disassociable anion and M is a cationic species. The bimetallic complexes are useful in forming pure complex metal oxide fibers by a process of either dispersing the complex metal oxide or bimetallic precursors in a spinning composition of fluid organic polymer or by imbibing a polymeric fiber with species AX and precipitating out the bimetallic complex by treating the imbibed fiber with a compound containing the BY complex. The process is also useful in forming superconductive complex metal oxides.Type: GrantFiled: May 15, 1989Date of Patent: January 29, 1991Assignee: Hoechst Celanese Corp.Inventor: Robert E. Johnson
-
Patent number: 4978515Abstract: Complex metal oxides are formed by calcining in molecular oxygen such as air at least one bimetallic complex of the formula A[BY] wherein A and B are metals and Y is a ligand associated with B. The bimetallic complexes are precipitated from aqueous solution by a transposition reaction of AX and M[BY] wherein X is a disassociable anion and M is a cationic species. The bimetallic complexes are useful in forming pure complex metal oxide fibers by a process of either dispersing the complex metal oxide or bimetallic precursors in a spinning composition of fluid organic polymer or by imbibing a polymeric fiber with species AX and precipitating out the bimetallic complex by treating the imbibed fiber with a compound containing the BY complex. The process is also useful in forming superconductive complex metal oxides.Type: GrantFiled: May 20, 1987Date of Patent: December 18, 1990Assignee: Hoechst Celanese Corp.Inventor: Robert E. Johnson
-
Patent number: 4971778Abstract: For working up concentrated, preferably partially condensed phosphoric acid which is contaminated with organic components, the phosphoric acid is first thoroughly mixed with fine-grained sand in a weight ratio of (0.5 to 1.5):1. Then, to neutralize the mixture, a basic, oxygen-containing calcium compound is added, while the thorough mixing is continued, until a 10% aqueous suspension of the mixture to which the calcium compound has been added has a pH between 5 and 11. Finally, the mixture which contains the calcium compound is commminuted after cooling.Type: GrantFiled: April 12, 1990Date of Patent: November 20, 1990Assignee: Hoechst AGInventors: Gerhard Bettermann, Gunther Schimmel, Jens Tiedemann
-
Patent number: 4937062Abstract: The present invention includes metal oxide foam particles and a method of making the same. A decomposable metal salt feed solution is injected into a hot atomizing gas. The mixture of hot atomizing gas and feed solution is maintained in the reactor until the feed solution converts to metal oxide foam particles. The metal oxide foam particles have a high specific surface area.Type: GrantFiled: March 7, 1988Date of Patent: June 26, 1990Assignee: Cabot CorporationInventors: Merrill Jordan, deceased, Steven R. Reznek, Matthew Neville, Brian A. Soucy, Bruce E. Mackay
-
Patent number: 4929436Abstract: Process for the manufacture of a powder of mixed metal oxides by cohydrolysis of metal alcoholates in the presence of an acidic organic compound and mixed metal oxide powders in which the molar relationships R.sub.1 and R.sub.2 of a metal oxide to the sum of the metal oxides in the powder and in a particle of the powder are such that ##EQU1## The process applies to powders of zirconia doped with yttrium oxide.Type: GrantFiled: June 26, 1989Date of Patent: May 29, 1990Assignee: Solvay & Cie (Societe Anonyme)Inventors: Franz Legrand, Luc Lerot, Patricia De Bruycker
-
Patent number: 4894211Abstract: The invention relates to a process for the production of granular sodium perborate monohydrate having good mechanical strength. The process is characterized in that sodium silicate having an SiO.sub.2 /Na.sub.2 O molar ratio comprised within the range of from 0.4 to 2.0 is added to granular sodium perborate tetrahydrate while this is being kept in movement and the so processed perborate tetrahydrate is dried until perborate monohydrate is obtained.Type: GrantFiled: May 15, 1986Date of Patent: January 16, 1990Assignee: Ausimont S.p.A.Inventors: Antonino Condo', Renzo Ferrario
-
Patent number: 4892694Abstract: Residual silicone from direct process manufacture of chlorosilanes is stabilized for transportation and disposal.Type: GrantFiled: January 13, 1989Date of Patent: January 9, 1990Assignee: General Electric CompanyInventors: Alan Ritzer, George P. Moloney, Jr., Jack C. Leunig
-
Patent number: 4844721Abstract: An aqueous liquid containing unsaturated vegetable, marine or land animal oil or liquid fat, preferably drying or semidrying oil, is used as a scrubbing liquid to remove pollutant from an air stream. Specifically, styrene constituting an air pollutant is sorbed from the air and polymerized to polystyrene by ultraviolet light radiation to facilitate its separation from the scrubbing liquid.Type: GrantFiled: October 6, 1987Date of Patent: July 4, 1989Inventors: James P. Cox, Robert W. D. Cox
-
Patent number: 4832939Abstract: The present invention involves a method for producing a variety of barium titanate based powder products consisting of submicron, dispersible primary particles having narrow size distributions. The method, in its broadest aspects, involves heating an aqueous slurry of PbO, or Pb(OH).sub.2, and Ca(OH).sub.2 with a stoichiometric excess of the hydrous oxides of Ti(IV), Sn(IV), Zr(IV) and Hf(IV) to a temperature not exceeding 200.degree. C. Thereafter, the resulting slurry temperature is adjusted to between 50.degree. and 200.degree. C. and a solution of Ba(OH).sub.2 and Sr(OH).sub.2, having a temperature of 70.degree. to 100.degree. C. is added within a period of five minutes or less to the slurry. About 10 minutes after the addition of the Ba(OH).sub.2 and Sr(OH).sub.2 solution is completed, the slurry is heated to a temperature not exceeding 225.degree. C. to ensure formation of a stoichiometric perovskite product. Thereafter, the slurry is cooled and the solid product is recovered.Type: GrantFiled: February 1, 1988Date of Patent: May 23, 1989Assignee: Cabot CorporationInventors: Jameel Menashi, Robert C. Reid, Laurence P. Wagner
-
Patent number: 4786486Abstract: Submicronic zirconia particulates containing stabilizing amounts of yttrium or cerium, well adapted for ceramics applications, are produced by (i) admixing an aqueous suspension of zirconium fluosulfate particles having a pH of from about 0 to 3 with an aqueous solution of a salt of yttrium or cerium, (ii) neutralizing the resulting mixture at a pH of at least 7, (iii) separating a mixture of zirconium/yttrium or zirconium/cerium hydroxides from the medium of neutralization, (iv) washing said mixture of hydroxides to eliminate sulfate and fluoride ions therefrom, and then (v) calcining said mixture of hydroxides.Type: GrantFiled: March 16, 1987Date of Patent: November 22, 1988Assignee: Thann et MulhouseInventors: Jean-Claude Guelen, Jean-Francois Colombet, Claude Magnier, Jean-Philippe Browaeys, Alain Vesco
-
Patent number: 4720362Abstract: An article of manufacture is provided comprising a polycrystalline cubic aluminum oxynitride having a density of at least 98% of theoretical density, and being transparent to electromagnetic radiation in the wavelength range from 0.3 to 5 micrometers with an in-line transmission of at least 20% in this range.A method of preparing the optically transparent aluminum oxynitride is also provided comprising the steps of forming a green body of substantially homogeneous aluminum oxynitride powder and pressureless sintering said green body in a nitrogen atmosphere and in the presence of predetermined additives which enhance the sintering process. Preferred additives are boron and yttrium in elemental or compound form.Type: GrantFiled: March 20, 1985Date of Patent: January 19, 1988Assignee: Raytheon CompanyInventors: Richard L. Gentilman, Edward A. Maguire, Leonard E. Dolhert
-
Patent number: 4699774Abstract: The invention relates to gas-tight sintered translucent aluminum oxide having a density of at least 99.5%, which contains at most 1000 ppm by weight of MgO. According to the invention, the aluminum oxide also has a content of Er.sub.2 O.sub.3 lying between 20 ppm by weight and 200 ppm by weight. The material thus obtained has a great mechanical strength, a high resistance to attack by sodium and a satisfactory translucence. Thus, the material is very suitable for use as wall material for the discharge vessels of high-pressure discharge lamps.Type: GrantFiled: September 4, 1986Date of Patent: October 13, 1987Assignee: U.S. Philips CorporationInventors: Peter R. Prud'Homme Van Reine, Gerardus H. M. Siebers
-
Patent number: 4686070Abstract: A method of preparing substantially homogeneous aluminum oxynitride powder is provided comprising the steps of reacting gamma aluminum oxide with carbon in the presence of nitrogen, and breaking down the resulting powder into particles in a predetermined size range. A method of preparing a durable optically transparent body from this powder is also provided comprising the steps of forming a green body of substantially homogeneous cubic aluminum oxynitride powder and sintering said green body in a nitrogen atmosphere and in the presence of predetermined additives which enhance the sintering process. Preferred additives are boron, in elemental or compound form, and at least one additional element selected from the group of yttrium and lanthanum or compounds thereof. The sintered polycrystalline cubic aluminum oxynitride has a density greater than 99% of theoretical density, an in-line transmission of at least 50% in the 0.3-5 micron range, and a resolving angle of 1 mrad or less.Type: GrantFiled: October 29, 1984Date of Patent: August 11, 1987Assignee: Raytheon CompanyInventors: Edward A. Maguire, Thomas M. Hartnett, Richard L. Gentilman
-
Patent number: 4650658Abstract: NaBrO.sub.2.3H.sub.2 O crystals with excellent storage stability which contain at least 30 wt. % of NaBrO.sub.2.3H.sub.2 O and 0.5-5.0 wt. % of NaOH. The crystals are produced by precipitation from NaBrO.sub.2 solutions containing NaOH and impurities and are very useful as oxidizing and brominating agents.Type: GrantFiled: November 12, 1985Date of Patent: March 17, 1987Assignee: Nippon Silica Industrial Co., Ltd.Inventors: Hisao Shiozawa, Kihachiro Matsuda
-
Patent number: 4623525Abstract: The present invention relates to the stabilization against water of solutions of poly(dichlorophosphazene) through the utilization of water reacting complexes of substituted silicon, tin, germanium or titanium chlorides which are complexed with a tertiary amine base.Type: GrantFiled: January 7, 1985Date of Patent: November 18, 1986Assignee: The Firestone Tire & Rubber CompanyInventors: William L. Hergenrother, John W. Fieldhouse, Adel F. Halasa
-
Patent number: 4614640Abstract: Copper(II) hydroxide is produced by a reaction of copper oxychloride in an aqueous suspension with alkali hydroxide or alkaline earth metal hydroxide in the presence of a stabilizing agent and the product is separated and washed. To improve the stability of the copper hydroxide and to avoid a black coloring by copper oxide, inorganic silicon compounds which contain hydroxyl groups (SiOH) in the molecules or form such groups in an aqueous medium are added to the suspension. It is desirable to use particulate solid silicic acids or silicic acids which are soluble in water or colloidally dissolved.Type: GrantFiled: May 22, 1985Date of Patent: September 30, 1986Assignee: Norddeutsche Affinerie AGInventors: Hartmut Ploss, Jurgen Lehne
-
Patent number: 4572618Abstract: A method for preparing reversible-photochromic magnesium oxide (MgO) crystals. Single crystals of MgO doped with both lithium (Li) and nickel (Ni) are grown by a conventional arc fusion method. The as-grown crystals are characterized by an amber coloration. The crystals lose the amber coloration and become photochromic when they are thermochemically reduced by heating at temperatures greater than 1000.degree. K. in a hydrogen atmosphere. Alternate irradiation with UV and visible light result in rejuvenation and bleaching of the amber coloration, respectively.Type: GrantFiled: September 28, 1984Date of Patent: February 25, 1986Assignee: The United States of America as represented by the Department of EnergyInventors: Marvin M. Abraham, Jose L. Boldu, Yok Chen, Victor M. Orera
-
Patent number: 4565747Abstract: Boron nitride containing titanium nitride in an amount of 0.05 to 10 wt. % which is produced at a relatively low temperature, utilizing a chemical vapor deposition technique. In the deposition process, boron, titanium and nitrogen source gases are introduced into an evacuated reactor together with a carrier and/or diluent gas and contacted with a heated substrate previously mounted in the reactor, whereby boron nitride with titanium nitride is deposited onto the substrate. The deposit thus obtained has a high density, a significantly improved heat-shielding ability, a high degree of anisotropy with respect to thermal diffusivity and a high chemical stability. By using such anisotropic boron nitride with BN ceramics, very useful BN type composite ceramics can be produced.Type: GrantFiled: November 9, 1984Date of Patent: January 21, 1986Assignees: Research Development Corporation, Hiroyuki Nakae, Toshitsugu Matsuda, Naoki Uno, Yukio Matsunami, Toshio Hirai, Tsuyoshi MasumotoInventors: Hiroyuki Nakae, Toshitsugu Matsuda, Naoki Uno, Yukio Matsunami, Toshio Hirai, Tsuyoshi Masumoto
-
Patent number: 4545967Abstract: Lanthanum sulfide is maintained in the stable cubic phase form over a temperature range of from 500.degree. C. to 1500.degree. C. by adding to it small amounts of calcium, barium, or strontium. This novel compound is an excellent thermoelectric material.Type: GrantFiled: February 25, 1983Date of Patent: October 8, 1985Assignee: The United States of America as represented by the United States National Aeronautics and Space AdministrationInventors: George H. Reynolds, Norbert B. Elsner, Clyde H. Shearer
-
Patent number: 4539191Abstract: Sodium silicate solutions are prepared by dissolving sand in sodium hydroxide solution at a pressure of at least 100 psig and at a temperature of at least 130.degree. C. to produce a sodium silicate solution having a silica to sodium oxide molar ratio of between 2.4:1 and 2.8:1, and activating said sodium silicate solution by reaction with from about 50 to 200 ppm of alumina.Type: GrantFiled: November 7, 1983Date of Patent: September 3, 1985Assignee: J. M. Huber CorporationInventor: John A. Kostinko
-
Patent number: 4520116Abstract: An article of manufacture is provided comprising a polycrystalline cubic aluminum oxynitride having a density of at least 98% of theoretical density, and being transparent to electromagnetic radiation in the wavelength range from 0.3 to 5 micrometers with an in-line transmission of at least 20% in this range.A method of preparing the optically transparent aluminum oxynitride is also provided comprising the steps of forming a green body of substantially homogeneous aluminum oxynitride powder and pressureless sintering said green body in a nitrogen atmosphere and in the presence of predetermined additives which enhance the sintering process. Preferred additives are boron and yttrium in elemental or compound form.Type: GrantFiled: January 13, 1984Date of Patent: May 28, 1985Assignee: Raytheon CompanyInventors: Richard L. Gentilman, Edward A. Maguire, Leonard E. Dolhert
-
Patent number: 4487756Abstract: The invention relates to a process for manufacturing crystalline alumina from aluminum hydroxide which after further conventional treatment is advantageously suitable for ceramic and refractory purposes or as a lapping and polishing agent. The process is such that aluminum hydroxide with a Na.sub.2 O content of .ltoreq.0.1 wt. % with respect to Al.sub.2 O.sub.3 is subjected either directly or after prior partial dehydration to a thermal treatment above the temperature for transformation to .alpha.--Al.sub.2 O.sub.3. The aluminum hydroxide has an addition of an ammonium containing mineralizer made to it, simultaneously in the presence of boron and/or fluorine, in particular an addition of NH.sub.4 BF.sub.4. The product is characterized by way of the essentially isometric shape of the single crystals.Type: GrantFiled: August 12, 1983Date of Patent: December 11, 1984Assignee: Swiss Aluminium Ltd.Inventors: Tiberiu Mizrah, Bernhard Schepers, Bernd Schr/o/ der
-
Patent number: 4486396Abstract: The present invention relates to ammonium nitrate or products having a high content of ammonium nitrate stabilized against swelling and break-down by thermal cycling, and a method for manufacturing such products. An amount of 0.05-1.0 weight % porous particles having a surface area of 150-400 m.sup.2 /g and a pore size of 100-300 .ANG.ngstroms are included in the products. As porous particles, preferably silicon dioxide particles having a surface area of 250-350 m.sup.2 /g and a pore size of 100-250 .ANG.ngstroms are used. The products are made by first drying granulated or prilled ammonium nitrate or products having a high content of ammonium nitrate and thereupon coating them with the porous particles, and if desired also adding a dust-binding agent and/or an anticaking agent. Ammonium nitrate thus conditioned is both as stable and porous as required for use in explosives and in addition it meets the requirements for so-called tropical grade ammonium nitrate.Type: GrantFiled: June 14, 1983Date of Patent: December 4, 1984Assignee: Norsk Hydro a.s.Inventors: Olav Kjohl, Ellen Brekke, Arne O. Egner
-
Patent number: 4481300Abstract: A method of preparing substantially homogeneous aluminum oxynitride powder is provided comprising the steps of reacting gamma aluminum oxide with carbon in the presence of nitrogen, and breaking down the resulting powder into particles in a predetermined size range.A method of preparing a durable optically transparent body from this powder is also provided comprising the steps of forming a green body of substantially homogeneous cubic aluminum oxynitride powder and sintering said green body in a nitrogen atmosphere and in the presence of predetermined additives which enhance the sintering process. Preferred additives are boron, in elemental or compound form, and at least one additional element selected from the group of yttrium and lanthanum or compounds thereof. The sintered polycrystalline cubic aluminum oxynitride has a density greater than 99% of theoretical density, an in-line transmission of at least 50% in the 0.3-5 micron range, and a resolving angle of 1 mrad or less.Type: GrantFiled: January 13, 1984Date of Patent: November 6, 1984Assignee: Raytheon CompanyInventors: Thomas M. Hartnett, Richard L. Gentilman, Edward A. Maguire
-
Patent number: 4477421Abstract: The present invention provides a process for increasing the storage stability of an aqueous solution containing 20 to 80% by weight cyanamide, wherein the aqueous cyanamide solution is mixed with 0.005 to 0.5% by weight of divalent magnesium cations, referred to the cyanamide solution, in the form of at least one inorganic and/or organic magnesium salt.Type: GrantFiled: May 10, 1983Date of Patent: October 16, 1984Assignee: SKW Trostberg AktiengesellschaftInventor: Stefan Weiss
-
Patent number: 4454054Abstract: The disclosure relates to sodium tripolyphosphate containing up to 95 weight % phase-I, 0.1 to 22 weight % water of crystallization and 0.01 to 2.0 weight %, calculated as metal, of a compound of the metals selected from calcium, magnesium, zinc or strontium, the compound yielding ions in an aqueous medium. The disclosure also relates to a process for making the tripolyphosphate, and to its uses.Type: GrantFiled: July 19, 1982Date of Patent: June 12, 1984Assignee: Hoechst AktiengesellschaftInventors: Herbert Landgraber, Werner Kowalski, Johan Scheffer, Hans Haas
-
Patent number: 4421728Abstract: Particulate red amorphous phosphorus is stabilized against oxidative degradation to phosphorus acids and phosphine by the use of titanium dioxide or titanium phosphate.Type: GrantFiled: July 7, 1982Date of Patent: December 20, 1983Assignee: ERCO Industries LimitedInventor: Helena Twardowska
-
Patent number: 4409016Abstract: A process for preparing thermally stable ammonium nitrate-containing granules having high bulk density, high impact resistance, high crushing resistance, and little or no tendency to cake by spraying a liquid composition containing at most 15% by weight water, a stabilization agent, ammonium nitrate and other components into a fluidized bed of ammonium nitrate seed particles thereby forming granules and recovering the thus formed ammonium nitrate-containing granulated product.Type: GrantFiled: June 18, 1982Date of Patent: October 11, 1983Assignee: Unie Van Kunstmestfabrieken, B.V.Inventors: Stanislaus M. P. Mutsers, Cornelis Hoek, Gerardus M. C. Wagemans
-
Patent number: 4405573Abstract: Disclosed is a process for making potassium ferrate (K.sub.2 FeO.sub.4) by reacting substantially pure KOH, C1.sub.2, and a ferric salt in the presence of a stabilizing proportion of at least one ferrate-stabilizing compound (e.g., a combination of an alkali metal silicate and an alkali metal iodine-containing salt). The formed K.sub.2 FeO.sub.4 is separated and recovered from other reaction co-products [KCl, H.sub.2 O, KOCl, and Fe(OH).sub.3 ] and excess KOH. Other specific improvements include the following:(i) returning KCl co-product back to a chlor/alkali membrane-type electrolytic cell and then making very pure KOH and Cl.sub.2 ;(ii) recylcing excess KOH back to the ferrate-forming reaction; and(iii) recovering a substantially pure dry solid K.sub.2 FeO.sub.4 product by washing the above-noted K.sub.2 FeO.sub.4 product in DMSO or its equivalent; and then washing with methanol or its equivalent, before drying.Type: GrantFiled: December 17, 1981Date of Patent: September 20, 1983Assignee: Olin CorporationInventors: J. Paul Deininger, Ronald L. Dotson
-
Patent number: 4376755Abstract: This invention is a new process for producing refractory crystalline oxides having improved or unusual properties. The process comprises the steps of forming a doped-metal crystal of the oxide; exposing the doped crystal in a bomb to a reducing atmosphere at superatmospheric pressure and a temperature effecting precipitation of the dopant metal in the crystal lattice of the oxide but insufficient to effect net diffusion of the metal out of the lattice; and then cooling the crystal. Preferably, the cooling step is effected by quenching. The process forms colloidal precipitates of the metal in the oxide lattice. The process may be used, for example, to produce thermally stable black MgO crystalline bodies containing magnetic colloidal precipitates consisting of about 99% Ni. The Ni-containing bodies are solar-selective absorbers, having a room-temperature absorptivity of about 0.96 over virtually all of the solar-energy spectrum and exhibiting an absorption edge in the region of 2 .mu.m.Type: GrantFiled: January 29, 1982Date of Patent: March 15, 1983Assignee: The United States of America as represented by the United States Department of EnergyInventors: Jagdish Narayan, Yok Chen
-
Patent number: 4374119Abstract: The invention describes a process for the production of coarse crystalline alumina from aluminum hydroxide, which after preparation by known methods is advantageously useful for abrasives, lapping and polishing purposes or for refractory materials. The process is characterized by aluminum hydroxide, either directly or after previous partial dehydration in the range 200.degree.-550.degree. C., being added with a mineralizer of compound type x(BF.sub.4).sub.n, wherein x stands for NH.sub.4 and metallic elements and n is for the formal valence of x, and subsequently is subjected to an elevated temperature treatment between 750.degree. C. and a value higher than the phase change temperature to .alpha.-Al.sub.2 O.sub.3.Type: GrantFiled: September 16, 1981Date of Patent: February 15, 1983Assignee: Swiss Aluminium Ltd.Inventors: Bernhard Schepers, Volker Nobbe, Bernd Schroder, Werner Borer, Manfred Kullack
-
Patent number: 4361491Abstract: This invention relates to a method of producing articles which generate heat at a substantially constant temperature for an extended period of time and which are able to remain in a stable state until such time as the generation of heat is desired. The method also relates to supercooled fluids produced by such methods. The method involves the processing of supercooled fluids such as hypo to produce this stable state. As a first step, a suitable material such as ethylene glycol may be added to the supercooled fluid to stabilize the supercooled fluid and to decrease the generation of heat in the supercooled fluid to obtain a desired temperature. The mixture is then heated to a relatively high temperature considerably above the melting temperature of the supercooled fluid. With the mixture at the high temperature, water is added to provide a particular specific gravity and an alkali is added to provide a particular pH.Type: GrantFiled: May 18, 1981Date of Patent: November 30, 1982Assignee: Kay Laboratories, Inc.Inventor: Donald E. Truelock
-
Patent number: 4341751Abstract: Carbon dioxide and air reactivity reactions occurring during carbon electrode use, can be minimized by the use of quench water treated with phosphoric acid following calcination of the coke used to make the electrode.Type: GrantFiled: August 5, 1981Date of Patent: July 27, 1982Assignee: The Standard Oil CompanyInventors: Oliver A. Kiikka, Keith A. Connors