Class / Patent application number | Description | Number of patent applications / Date published |
524804000 |
Solid polymer derived from ethylenic monomers only
| 94 |
524839000 |
Solid polymer or SICP derived from -N=C=X (X is chalcogen) containing reactant
| 17 |
524801000 |
Process of preparing water-in-oil emulsion or dispersion, or product thereof
| 16 |
524845000 |
Solid polymer derived from a reactant which is a carboxylic acid or derivative
| 8 |
524837000 |
Solid polymer or SICP derived from Si-containing reactant
| 7 |
524841000 |
Solid polymer or SICP derived from a phenolic reactant | 3 |
20090326149 | BRANCHED POLYCARBONATES AND PROCESSES FOR PRODUCING THE SAME - Methods for making a branched polycarbonate are disclosed. An interfacial mixture comprising water, a substantially water-immiscible organic solvent, a dihydroxy compound, a polyhydric branching agent, an endcapping agent, a catalyst, and a base is formed. The base and the branching agent are dissolved in the mixture before the dihydroxy compound is added, and the interfacial mixture has a basic pH. The mixture is reacted by adding a carbonate precursor to the mixture while maintaining the pH between about 8 and about 10 to form the branched polycarbonate. The resulting branched polycarbonates may contain more than 1.5 mole % of the THPE; have residual chloride content of 20 ppm or less; and a weight average molecular weight of about 55,000 or less. They may also be highly transparent. | 12-31-2009 |
20110224372 | PROCESS FOR PREPARING LINEAR POLYCARBONATE WITH IMPROVED IMPACT PROPERTIES - The present invention relates to an improved process for preparing linear polycarbonates having an improved technique for adding a coupling catalyst compound, specifically the addition of the coupling catalyst at two or more separate, different points in the process. Linear polycarbonate resins prepared by said process demonstrate a lower level of polycarbonate oligomers and an improved balance of properties, in particular improved impact strength and lower ductile brittle transition temperature. | 09-15-2011 |
20150148484 | AQUEOUS BINDER COMPOSITIONS OF ALIPHATIC OR CYCLOALIPHATIC DICARBOXALDEHYDES AND RESORCINOL - The present invention provides substantially formaldehyde free aqueous thermosetting binder resins from resorcinol and cycloaliphatic dialdehydes, glutaraldehyde or their mixtures and urea which may be excluded or included up to amounts which deter hot wet tensile strength in the cured binder. The compositions provide binders that on a performance cost basis are equivalent to phenol formaldehyde resins but without the formaldehyde. | 05-28-2015 |
524843000 |
Solid polymer or SICP derived from an aldehyde or aldehyde derivative reactant | 2 |
20150328255 | ANTI-MICROBIAL POLYMERS AND THEIR COMPOSITIONS - Polymers derived directly from acrolein monomer that are substantially soluble in water and/or aqueous media, together with methods for preparing same and compositions containing such for use as an anti-microbial, anti-cancer, anti-inflammatory and/or anti-coagulant. | 11-19-2015 |
20150344621 | AQUEOUS SOLUTION COMPRISING ACRYLIC ACID AND THE CONJUGATE BASE THEREOF - An aqueous solution comprising acrylic acid and the conjugate base thereof in a total amount of at least 10% by weight, based on the weight of the aqueous solution, and propionic acid and the conjugate base thereof, formic acid and the conjugate base thereof, acetic acid and the conjugate base thereof, benzoic acid and the conjugate base thereof, maleic anhydride, maleic acid and the conjugate bases thereof, phthalic anhydride, phthalic acid and the conjugate bases thereof, acrolein, benzaldehyde, 2-furaldehyde, and at least 20 mol % of at least one alkali metal cation;
| 12-03-2015 |
524803000 |
Polyvinyl alcohol or partially hydrolyzed polyvinyl acetate or chemically modified forms thereof | 2 |
20100130679 | METHOD FOR PRODUCING AQUEOUS VINYL ESTER DISPERSIONS - The preparation of vinyl ester homo- or copolymers by emulsion polymerization is described. The process is performed in the presence of a polymerization-retarding component in at least two phases, the concentration of the vinyl ester monomer in the polymerization mixture in the first phase having been depleted by not more than 50% at the end of the first phase compared to the concentration of the vinyl ester monomer in the polymerization mixture at the start of the first phase, and the concentration of the vinyl ester monomer in the polymerization mixture in the second phase being depleted compared to the concentration at the end of the first phase. The retarding component is depleted during the first phase. In the second phase, the heat of reaction is removed by evaporative cooling. In the first phase, the emulsion polymerization is effected at temperatures up to the boiling point of the vinyl ester-water azeotrope, and, in the second phase, at temperatures above the boiling point of the vinyl ester-water azeotrope. | 05-27-2010 |
20110112246 | PROCESS FOR THE PREPARATION OF HYDROTHERMAL HYBRID MATERIAL FROM BIOMASS, AND HYDROTHERMAL HYBRID MATERIAL OBTAINABLE BY THE PROCESS - The present invention relates to a process for the preparation of hydrothermal hybrid material, in particular coal-like hybrid material from biomass. The process involves the heating of a reaction mixture comprising water, biomass and a copolymerizable compound, wherein the copolymerizable compound is added when preparing the reaction mixture, in a variant of the process, the biomass is converted to activated biomass in a first step, and the copolymerization of the activated biomass and a copolymerizable compound to give the hydrothermal, preferably coal-like, hybrid material is started by adding a polymerization initiator. The invention also relates to the hydrothermal hybrid materials obtainable by the processes as such, e.g. to aqueous dispersions thereof. By incorporating copolymerizable compounds, e.g. petrochemical compounds in the structure of the hydrothermal hybrid materials, the physical properties of the materials and the preparation process thereof can be controlled. | 05-12-2011 |
Entries |
Document | Title | Date |
20080269410 | Self-dispersing latex particulates - The present invention is drawn to a self-dispersing latex particulate. The self-dispersing latex particulate can include a plurality of polymerized monomers witch form a latex particulate and a latex dispersant. The latex dispersant can include at least one hydrophobic segment adsorbed on a surface of the latex particulate, and a plurality of hydrophilic segments attached to the hydrophobic segment or segments. Such self-dispersing latex particulates can be included in latex dispersions, such as ink-jet inks. | 10-30-2008 |
20090292071 | Free-radical polymerization process in aqueous dispersion for the preparation of a block copolymer at least one block of which is a block of a halogenated polymer - Process of controlled free-radical polymerization in aqueous dispersion for the preparation of a block copolymer at least one block of which is a block of a halogenated polymer using molecular iodine and at least one oxidant whose solubility in water is at least 10 g/l for the synthesis of the first block of the block copolymer. | 11-26-2009 |
20090306288 | EMULSION POLYMERISATION PROCESS - An emulsion polymerisation process using a redox initiator comprising a reductant and an oxidant, wherein monomers are mixed into a carrier liquid, e.g. water, to make a pre-emulsion, which is then supplied to a reactor comprising one or more circulation loops, an outlet, and a circulation pump for circulating a reactor charge within the circulation loop, characterised in that the reductant is added to the pre-emulsion before it is mixed into the reactor charge and the oxidant is mixed into the reactor charge, e.g., via the water-phase feed. | 12-10-2009 |
20100022708 | DISPERSING ASSISTANT FOR EMULSION AND SUSPENSION POLYMERIZATION - The use of an addition polymer A composed in copolymerized form of
| 01-28-2010 |
20100144966 | Liquid oligomer composition containing hydroxyamine adducts and method of manufacturing thereof - Proposed is a liquid oligomer composition that contains a hydroxyamine adduct and a liquid reacting oligomer. The hydroxyamine adduct includes an epoxy-amine adduct, which contains at least one primary amine group that is a product of the reaction of an epoxy compound with at least one terminal oxyrane group and at least one amine that contains at least two primary amino groups. In order to form the epoxy-amine adduct, 1 to 15 moles of at least one amine are reacted per equivalent of the aforementioned epoxy compound. The composition also contains at least one compound with one or more terminal cyclocarbonate groups. A method of manufacturing a liquid oligomer composition on the basis of the above compounds is also proposed. | 06-10-2010 |
20100273941 | Thermally polymerizable resin composition - Disclosed is a water-soluble, thermally polymerizable oxetane composition essentially comprising a water-soluble oxetane compound and a heteropolyacid. The water-soluble thermally polymerizable oxetane resin composition essentially comprises (A) a water-soluble oxetane compound and (B) at least one heteropolyacid compound selected from heteropolyacids and heteropolyacid salts. The water-soluble oxetane compound may contain one or more oxetane functional groups in the molecule and one or more alcoholic OH groups in the molecule. The heteropolyacids include phosphotungstic acid, phosphomolybdic acid, silicotungstic acid, and silicomolybdic acid and mixtures thereof. The heteropolyacid salts include phosphotungstic acid salts, phosphomolybdic acid salts, silicotungstic acid salts, and silicomolybdic acid salts and mixtures thereof. | 10-28-2010 |
20110160394 | PROCESS FOR MAKING UNIFORM OLIGOMERIC DROPLETS - A process for making substantially uniform oligomeric droplets in an aqueous dispersion comprising preparing an aqueous emulsion of an emulsifying agent, at least one monomer, a chain transfer agent, and an initiator; and mixing the aqueous emulsion with a stabilizer and a plurality of seed particles. | 06-30-2011 |