| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 524001000 |
Adding a NRM to a preformed solid polymer or preformed specified intermediate condensation product, composition thereof; or process of treating or composition thereof
| 10987 |
| 524700000 |
Preparation of intentional or desired composition by formation of a solid polymer (SP) or SICP in presence of a designated nonreactant material (DNRM) other than solely water, hydrocarbon, silicon dioxide, glass, titanium dioxide or elemental carbon, composition thereof; or process of treating or composition thereof
| 269 |
| 524800000 |
Preparation of intentional or desired composition by formation of solid polymer or SICP in the presence of water as a designated nonreactant material (DNRM), or products thereof
| 156 |
| 524849000 |
Solid polymer from ethylenic monomer only, said polymer formed in the presence of a nonreactant material
| 81 |
| 524858000 |
Si-containing reactant forming a solid polymer or SICP in the presence of a nonreactant material
| 53 |
| 524871000 |
N=C=X containing reactant forming a solid polymer or SICP in the presence of a nonreactant material (X is chalcogen)
| 38 |
| 524878000 |
Carboxylic acid or derivative, excluding nitrile as sole derivative as reactant forming a solid polymer in the presence of a nonreactant material or mixture of materials having specified numerical limitations other than
| 20 |
| 524847000 |
Carbon, titanium dioxide, glass, or silicon dioxide having specified crystalline form or numerical limitation other than amount, e.g., included herein are particle size, shape, etc., as DNRM
| 10 |
| 524857000 |
Boron or metal-containing reactant forming a solid polymer or SICP in the presence of a nonreactant material | 5 |
| 20110118412 | THIETANE COMPOUND, POLYMERIZABLE COMPOSITION CONTAINING THE SAME, RESIN, METHOD FOR PRODUCING THE RESIN, AND USE OF THE POLYMERIZABLE COMPOSITION AND THE RESIN - A thietane compound represented by the following formula (30): | 05-19-2011 |
| 20110130516 | COMPOUND, POLYMERIZABLE COMPOSITION, RESIN, AND USE OF THE COMPOSITION AND THE RESIN - Disclosed is a compound represented by the following general formula (1), | 06-02-2011 |
| 20110136977 | METAL COMPOUND, POLYMERIZABLE COMPOSITION CONTAINING THE SAME, RESIN, METHOD FOR PRODUCING THE RESIN, AND USE OF THE RESIN - Disclosed is a metal compound represented by the following formula (0):
| 06-09-2011 |
| 20140128542 | INORGANIC COMPOSITION FOR TRANSFERRING A FINE UNEVENNESS - Disclosed is an inorganic composition for transferring a fine unevenness by which a fine unevenness made of an inorganic material capable of controlling a refractive index can be fabricated through a suitable transfer process. The composition according to the present invention contains a silicone compound and at least two types of metal alkoxides, wherein the metal alkoxides include a metal alkoxide having a metal species M1 (where M1 denotes at least one metal element selected from a group consisting of Ti, Zr, Zn, Sn, B, In, and Al) and a metal alkoxide having a metal species Si. In addition, a ratio between a molarity C | 05-08-2014 |
| 20140275417 | ORGANOBORONATE NANOPARTICLES AND METHODS OF USING THE SAME - In various embodiments, the present invention provides an organoboronate nanoparticle. The nanoparticle includes a polymer, which includes a repeating unit that includes at least one organoboronate functional group. Various embodiments provide compositions including the nanoparticles, surface functionalized nanoparticles, nanoparticles including an encapsulant, methods of making the nanoparticles, and methods of using the nanoparticles, such as methods of stimuli-responsive release of encapsulants. | 09-18-2014 |
| 524876000 |
Phenolic reactant forming a solid polymer or SICP in the presence of a nonreactant material | 5 |
| 20080293885 | Reactive Emulsion and Process for Producing the Same - The present invention provides a reactive emulsion capable of exerting a superior cross-linking ability, while reducing an amount of expensive additionally polymerizable oxazoline to be used. The problem can be solved with a reactive emulsion containing a core part composed of fine particles of an acrylate-based emulsion and a shell part composed of a polymer containing an oxazoline group, locating around said core part. | 11-27-2008 |
| 20100160555 | RESIN COMPOSITION - A resin composition comprising an epoxy compound denoted by the formula (1): | 06-24-2010 |
| 20130211005 | METHODS FOR MAKING POLYMER PARTICULATES IN GEL FORM - Methods for making polymer particles in gel form via an emulsion and/or suspension process are provided. The method can include preparing a reactant mixture comprising a carrier fluid and a monomer component containing one or more phenolic compounds and optionally one or more crosslinking compounds, a mixture of Maillard reactants, or a combination thereof. The monomer component can polymerize to form the polymer particles in gel form. The reactant mixture can be located within a reactor having one or more inner surfaces in contact with the reactant mixture during polymerization of the monomer component. The one or more inner surfaces limit a release of metal, metal ions, or a combination thereof into the reactant mixture to produce the polymer particles in gel form containing less than 1 wt % metal atoms, metal ions, or a combination thereof, based on the total weight of the polymer particles in gel form. | 08-15-2013 |
| 20150045505 | NEW FORMULATION METHODOLOGY FOR DISTORTIONAL THERMOSETS - Methods and formulations for distortional thermosets are disclosed that display enhanced composite mechanical performances and robust sorption resistance. The composition includes an epoxy resin of formula (I): | 02-12-2015 |
| 20160002431 | POLY(ETHER SULFONE)S AND POLY(ETHER AMIDE SULFONE)S AND METHODS OF THEIR PREPARATION - Poly(ether sulfones) (PES) and poly(ether amide sulfones) (PEAS) were prepared from post-consumer polycarbonates and polyesters, respectively, using a single vessel in batch mode (all reactants present when heating was initiated). The depolymerization of the initial polymer occurs concurrently with step growth polymerization to form a product polymer having a number average molecular weight of at least 5000. | 01-07-2016 |
| 524877000 |
Aldehyde or derivative or ketone as reactant forming a solid polymer or SICP in the presence of a nonreactant material | 4 |
| 20080242800 | LOW-EMISSION COLORED POLYOXYMETHYLENE MOLDING COMPOSITION - Colored molding compositions made from polyacetal copolymer, where the polyacetal copolymer essentially consists of oxymethylene units and oxyethylene units, and a strong protonic acid was used as initiator during preparation of the polyacetal copolymer, have lower formaldehyde emission than that from a comparable molding composition for which the polyacetal copolymer was prepared using a Lewis acid as initiator. The formaldehyde emission is generally less than 20 mg/kg, preferably less than 10 mg/kg. | 10-02-2008 |
| 20110015343 | Process for Preparation of Oligomeric or Polymeric Compounds Using Selective Michael Addition - A method of preparing an oligomeric or polymeric compound in a liquid solution is disclosed which consists of reacting a Michael donor compound with a Michael acceptor compound in the presence of a first catalyst and a Group IA and/or Group IIA metal ion catalyst. | 01-20-2011 |
| 20150361221 | PREPARATION OF POLY(OCTATRIAZACANE) - A polyoctatriazacane molecule is disclosed that has a plurality of octatriazacane groups having the structure | 12-17-2015 |
| 20160053043 | CURING COMPOSITIONS AND METHODS OF PREPARING - Disclosed are curing compositions for resin systems and in particular for phenolic resin systems and epoxy resin systems, to methods of preparing the curing compositions and to resin systems incorporating same. The curing compositions of the invention are the reaction product of an aldehyde with an amine in the presence of an aprotic solvent. | 02-25-2016 |
| 524650000 |
Inorganic water settable material containing | 4 |
| 20090054588 | Fluoride-modified additive for cementitious products, process for its preparation and use thereof - A fluoromodified admixture containing isocyanate and urethane and/or urea groups is described. Surprisingly, it has been found that the fluoromodified admixture according to the invention is outstandingly suitable even at a very low dosage for the permanent hydrophobic and/or oleophobic and/or dirt-repellent in-bulk finishing of products based on inorganic or hydraulic or mineral binders, without the fundamental property profile (e.g. compressive and flexural tensile strengths) of these products being substantially influenced. Moreover, it was not to be foreseen that in the case of the products treated with the fluoromodified admixtures according to the invention (e.g. hardened building material compositions) a markedly lower water absorption (avoidance of frost damage and corrosion) and a suppression of bleeding on the surfaces (avoidance of visual impairment) are to be observed. Furthermore, it could not be expected that in spite of the high fluorine modification an adequate self-dispersibility is afforded. | 02-26-2009 |
| 20110009564 | SILOXANE POLYMERIZATION IN WALLBOARD - Polymerization of siloxane is improved using a gypsum-based slurry that includes stucco, Class C fly ash, magnesium oxide and an emulsion of siloxane and water. This slurry is used in a method of making water-resistant gypsum articles that includes making an emulsion of siloxane and water, then combining the slurry with a dry mixture of stucco, magnesium oxide and Class C fly ash. The slurry is then shaped as desired and the stucco is allowed to set and the siloxane polymerizes. | 01-13-2011 |
| 20110196090 | SILOXANE POLYMERIZATION IN WALLBOARD - Polymerization of siloxane is improved using a gypsum-based slurry that includes stucco, Class C fly ash, magnesium oxide and an emulsion of siloxane and water. This slurry is used in a method of making water-resistant gypsum articles that includes making an emulsion of siloxane and water, then combining the slurry with a dry mixture of stucco, magnesium oxide and Class C fly ash. The slurry is then shaped as desired and the stucco is allowed to set and the siloxane polymerizes. The resulting product is useful for making a water-resistant gypsum panel having a core that includes interwoven matrices of calcium sulfate dihydrate crystals and a silicone resin, where the interwoven matrices have dispersed throughout them a catalyst comprising magnesium oxide and components from a Class C fly ash. | 08-11-2011 |
| 20160075600 | FAST CURING COMPOSITION FOR THE MANUFACTURE OF POLYURETHANE CEMENTITIOUS HYBRID FLOORING - The present application relates to a multi-component composition comprising a polyol component comprising one or more polyols and water, a polyisocyanate component comprising methylene diphenyl diisocyanate (MDI), a powder component comprising cement, calcium hydroxide and one or more aggregates and less than 0.5 wt.-%, based on the total weight of the polyol, polyisocyanate and the powder component, of a curing accelerator component comprising an amino alcohol and an acid. Polyurethane cementitious hybrid flooring or coating systems having an improved curing speed and enhanced aesthetic properties in that they show substantially no difference in colour shade can be achieved. Blister formation can be avoided. | 03-17-2016 |
| 524881000 |
Ethylenically unsaturated compound, or compound containing element other than C, H, O, or N (e.g., P, S, etc.) as reactant forming a solid polymer in the presence of an NRM | 2 |
| 20080200610 | POLYMER BLEND AND COMPOSITIONS AND METHODS FOR USING THE SAME - A polymer blend having at least one polysulfide component and at least one polythioether component is disclosed. The polymer blend offers numerous advantages, including the ability to compatibilize formulations based on either polysulfide chemistry or polythioether chemistry alone. Compositions comprising the polymer blend, particularly sealant formulations for use in aerospace applications, are also disclosed, as are multilayer sealant assemblies and methods for repairing the same. | 08-21-2008 |
| 20110306728 | POLYMER POLYOLS PREPARED FROM NITRILE-FREE AZO-INITIATORS - This invention relates to nitrile-free azo initiators for the preparation of polymer polyols and to the polymer polyols prepared therefrom. These novel polymer polyols comprise a base polyol, a preformed stabilizer and at least one ethylenically unsaturated monomer, in the presence of at least one free-radical polymerization initiator comprising as azo compound that is free of nitrile groups, and optionally, a polymer control agent. The process of preparing these polymer polyols is a continuous process comprising free-radically polymerizing a base polyol, a preformed stabilizer, and at least one ethylenically unsaturated monomer, in the presence of at least one free-radical polymerization initiator comprising as azo compound that is free of nitrile groups, and optionally, a polymer control agent. | 12-15-2011 |
| 524797000 |
Solid polymer or SICP derived from protein or biologically active polypeptide and ethylenic monomer or SPFI | 1 |
| 20100190925 | MANUFACTURE OF LEATHER AND FABRIC FROM MATERIALS CONTAINING PROTEIN HYDROLYSATES AND GELATINS - Polymer blends and/or adducts obtainable from protein hydrolysates and/or gelatins used as raw material for the manufacture of regenerated leather and fabrics. Polymer adducts and/or blends conveniently prepared, tanned and finished can replace natural leather or fabric in the manufacture of clothing and consumer articles with particular technological properties. | 07-29-2010 |
| 524799000 |
Solid polymer or SICP derived from lignin or tannin and ethylenic monomer or SPFI | 1 |
| 20140249271 | METHOD FOR INCREASING THE REACTIVITY OF LIGNIN - The present invention relates to a method for increasing the reactivity of lignin, wherein the method comprises the following steps: a) forming, under heating at a temperature of 30-70° C., an aqueous dispersion comprising alkali and lignin, wherein the alkali comprises a hydroxide of an alkali metal; and b) heating the dispersion formed in step a) at a temperature of 50-95° C. for producing alkalated lignin. | 09-04-2014 |
