Bocanegra Rojas
Jose Gertrudis Bocanegra Rojas, Monterrey MX
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20100254867 | Process to Produce Sodium Sulfate and Magnesium Hydroxide - This invention refers to a novel process to obtain magnesium hydroxide and sodium sulfate from a solid raw material, which contains sodium and magnesium soluble salts, preferably in the form of sulfates, coming from a natural source or as a byproduct of an industrial process. The process consisting in the conditioning of the raw material to guarantee the correct concentrations of sodium and magnesium sulfates that is subjected to a salting-out crystallization when mixed with sodium sulfate obtaining sodium sulfate; the resulting solution is subjected to an alkali treatment to precipitate the magnesium hydroxide and the mother liquor is fed to a regeneration stage of the alkali used in the precipitation of the magnesium hydroxide as well in the sodium sulfate solution for the crystallization. The crystallization can be performed as a multistage process countercurrent to increase the purity of sodium sulfate. | 10-07-2010 |
20120312190 | METHOD FOR PREPARING A FIRE RETARDANT ADDITIVE FOR COATINGS AND RESULTING PRODUCTS - The present invention refers to a process for the preparation of an additive with a metallic hydroxide base, and especially of magnesium hydroxide, to be integrated in coatings with the purpose to give them higher flame retarding properties. The hydroxide has an average particle size that is selected from between 1 nanometer and 10 microns preferable with a wide variety, the magnesium hydroxide is submitted to a treatment of washing and diffusion, mainly so that they efficiently are dispersed in, and do not interfere with, the desired properties of the coating. The nature of the coating function is selected from the materials and the conditions of the treatment, as well as the size of the particle. The objective coating can have a base of water, solvents, oil, and alcohol. Compared with coatings formed with other flame retarding compositions, the additive of the invention presents less loss of weight by means of burning through ASTM D1360 standards. | 12-13-2012 |
José Gertrudis Bocanegra Rojas, Coahuila MX
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20100267859 | ADDITIVE FOR COATINGS CONTAINING METALLIC NANOPARTICLES AND PREPARATION METHOD THEREFOR - The present invention relates to a method of obtaining an additive for coatings that contains nanoparticles of one or more compounds, preferably metallic, selected in relation to the property that is desired to be transferred to the coating, which comprises a first pretreatment phase in which the water content of the active agent is reduced, replacing it with a vehicle compatible with the coating, and a second phase in which it is mixed with a resin compatible with the coating, a dispersant and a solvent, which are also compatible with it. The additive produced by this method contains nanoparticles of one or more compounds, preferably metallic, which become dispersed homogeneously in the coating once incorporated therein. | 10-21-2010 |
José Gertrudis Bocanegra Rojas, Cauhuila MX
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20110195017 | PROCESS FOR THE PRODUCTION OF HIGH PURITY MAGNESIUM HYDROXIDE - This invention refers to a novel process for obtaining high purity magnesium hydroxide from a solid starting material containing magnesium in the form of, and/or combined with, carbonates, oxides and/or hydroxides, either natural or synthetic. The process comprises leaching the starting material to dissolve the magnesium; the solution is treated with alkali to precipitate the high purity magnesium hydroxide, and the remaining mother liquor is fed to a regeneration step of both the alkali used in the precipitation of high purity magnesium hydroxide, and the acid for leaching. The process of the invention is characterized by recycling reactants (acid and alkali) regenerated in the same process. | 08-11-2011 |
José Gertrudis Bocanegra Rojas, Torreon MX
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20140031495 | NOVEL COMPOSITION FOR THE PRODUCTION OF VINYLAROMATIC MATERIALS WITH IMPACT STRENGTH IMPROVED BY A STRUCTURE-MODIFYING ADDITIVE - The present invention refers to an improved composition for the production of vinyl aromatic polymers modified with rubber, in which a substantial impact resistance improvement of the final product is produced by the incorporation of a structure modifying additive in different steps of the polymerization, preferably during the process of co-continuity of phases and specially, during the inversion of phases interval. The additive is an insaturated compound of formula: | 01-30-2014 |
José Gertrudis Bocanegra Rojas, Coahuila MX
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20100267859 | ADDITIVE FOR COATINGS CONTAINING METALLIC NANOPARTICLES AND PREPARATION METHOD THEREFOR - The present invention relates to a method of obtaining an additive for coatings that contains nanoparticles of one or more compounds, preferably metallic, selected in relation to the property that is desired to be transferred to the coating, which comprises a first pretreatment phase in which the water content of the active agent is reduced, replacing it with a vehicle compatible with the coating, and a second phase in which it is mixed with a resin compatible with the coating, a dispersant and a solvent, which are also compatible with it. The additive produced by this method contains nanoparticles of one or more compounds, preferably metallic, which become dispersed homogeneously in the coating once incorporated therein. | 10-21-2010 |
Josè Gertrudis Bocanegra Rojas, Coanuila MX
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20100143183 | PROCESS FOR MANUFACTURE OF NANOMETRIC, MONODISPERSE, STABLE METALLIC SILVER AND A PRODUCT OBTAINED THEREFROM - The present invention relates to a procedure for preparation by a wet reduction method of nanometric particles of metallic silver, with diameter ranging from 1 to 100 nm and an average diameter of 20 to 40 nm, with monodispersion characteristics, stabilities exceeding 12 months and in a wide range of concentrations. The process comprises 4 stages: a) preparation of the reducing agent solution, taken from the tannins group and preferably tannic acid; b) preparation of a solution of soluble silver salts; c) reaction and, d) liquid-solid separation; the particle size is determined by the nature of the reducing agent and by the pH control of the currents. The final stage is designed for separating and concentrating the material after which the user can prepare the product for integration thereof in the desired medium. The particles obtained are redispersable in different media, such as water, alkidalic and phenolic resins, nitrocellulose, polyeurethane, vinylics, acrylics, alcohols, and in a wide range of organic and polymeric products such as high and low density polyethylene, Nylon, ABS and/or mixtures thereof. | 06-10-2010 |
Josè Gertrudis Bocanegra Rojas, Coanuila MX
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20100143183 | PROCESS FOR MANUFACTURE OF NANOMETRIC, MONODISPERSE, STABLE METALLIC SILVER AND A PRODUCT OBTAINED THEREFROM - The present invention relates to a procedure for preparation by a wet reduction method of nanometric particles of metallic silver, with diameter ranging from 1 to 100 nm and an average diameter of 20 to 40 nm, with monodispersion characteristics, stabilities exceeding 12 months and in a wide range of concentrations. The process comprises 4 stages: a) preparation of the reducing agent solution, taken from the tannins group and preferably tannic acid; b) preparation of a solution of soluble silver salts; c) reaction and, d) liquid-solid separation; the particle size is determined by the nature of the reducing agent and by the pH control of the currents. The final stage is designed for separating and concentrating the material after which the user can prepare the product for integration thereof in the desired medium. The particles obtained are redispersable in different media, such as water, alkidalic and phenolic resins, nitrocellulose, polyeurethane, vinylics, acrylics, alcohols, and in a wide range of organic and polymeric products such as high and low density polyethylene, Nylon, ABS and/or mixtures thereof. | 06-10-2010 |