子分类:
| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 141 | Thermoplastic block copolyester, manufacture and use for molding manufacture | JP20102481 | 1981-12-15 | JPS57125213A | 1982-08-04 | RUUDORUFU BINZATSUKU; KARURUUHAINTSU KEERAA; REO MORUBITSUTSUAA; RUUTOUITSUHI BOTSUTENBURUFU; BUARUTAA HAITSU |
| 142 | High crystalline thermoplastic block copolyester and preparation thereof | JP12049976 | 1976-10-08 | JPS5247892A | 1977-04-16 | PEETAA BIA; RUDORUFU BINZATSUKU; DEIITAA REMUPERU |
| 143 | JPS48102791A - | JP2808973 | 1973-03-12 | JPS48102791A | 1973-12-24 | |
| 144 | OPTICAL FIBRE COATED WITH A POLYESTER COATING | US16318282 | 2016-07-22 | US20190233330A1 | 2019-08-01 | Lidia TERRUZZI; Pamela DE MARTINO; Attilio CITTERIO; Massimo GOLA |
| The present invention concerns an optical fibre comprising: an optical waveguide comprising a glass core surrounded by a glass cladding; a coating surrounding said optical waveguide comprising a cured polymer material comprising a polyester obtained by esterification of: a reactant A selected from an acid, a triglyceride, or a mixture of triglycerides having a C16-C24 aliphatic chain comprising at least two conjugated double bonds; and a polyol made of at least one monomer comprising at least 3 hydroxyl groups, the polyol being thermally stable up to 300° C. (reactant B). The present invention concerns also the above said polyester coating, a method for coating an optical fibre with said polyester coating and a method for obtaining predetermined mechanical properties of a coating for an optical fibre. The cured polymer forming the coating can be prepared by curing the polyester of the invention either thermally or by radiation. | ||||||
| 145 | Coatings containing polyester macromers containing 1,1-dicarbonyl-substituted 1 alkenes | US15638290 | 2017-06-29 | US10150886B2 | 2018-12-11 | Aniruddha S. Palsule; Jeffrey M. Sullivan; Katherine E. Vanderpool; Alexander R. Holzer; Anushree Deshpande; John Klier |
| Compositions comprising a) one or more polyester macromers containing one or more chains of the residue of one or more diols and one or more diesters wherein the residue of the one or more diols and the one or more diesters alternate along the chain and a portion of the diesters are 1,1-diester-1-alkenes and at least one terminal end comprises the residue of one of the 1,1-diester-1 alkenes and wherein one or more terminal ends may comprise the residue of one or more diols; and b) one or more polymers having pendant Michael Addition donor groups. Disclosed are coating prepared from these compositions. | ||||||
| 146 | Dual curable composition | US15275910 | 2016-09-26 | US10150835B2 | 2018-12-11 | Benedict S. Curatolo |
| A dual curable composition is provided, comprising a compound represented by formula (I): (acrylate)a-(A)-(silane)b (I) in which a and b are identical or different and are each represented by an integer greater than or equal to 1; and wherein the dual curable composition is radiation curable and/or moisture curable. The moiety A comprises at least one of an aliphatic hydrocarbon, a cycloaliphatic hydrocarbon, an aryl moiety, an ether, an ester, an amide, a urethane, a urea, a hydroxyl group-containing organic moiety, an acrylic oligomer, an epoxy oligomer, a urethane oligomer, a polyester oligomer, or mixtures thereof, and the dual curable composition has a molecular weight greater than or equal to 300. | ||||||
| 147 | FOAM COMPOSITIONS | US16019607 | 2018-06-27 | US20180305493A1 | 2018-10-25 | David L. TRUMBO; Nick KROGMAN; Daniel S. NELSON |
| Foam compositions are provided. The compositions are prepared from multi-functional acetoacetate esters and multi-functional amines or acrylates. The foam compositions can include one or more additives. The foam compositions can be used for home and commercial insulation, air sealing, sound proofing, structural improvement, and exterior roofing, among other applications. The foam compositions provide advantages of being isocyanate free and offer reduced exposure to isocyanate. | ||||||
| 148 | DIESTER-BASED POLYMER ELECTROLYTES FOR HIGH VOLTAGE LITHIUM ION BATTERIES | US15681431 | 2017-08-21 | US20180294521A1 | 2018-10-11 | Malar Azagarsamy; Hany Basam Eitouni; Kulandaivelu Sivanandan |
| New homopolymers and copolymers of diester-based polymers have been synthesized. When these polymers are combined with electrolyte salts, such polymer electrolytes have shown excellent electrochemical oxidation stability in lithium battery cells. Their stability along with their excellent ionic conductivities make them especially suitable as electrolytes in high energy density lithium battery cells. | ||||||
| 149 | POLYMERS AND METHODS OF PRODUCING THEREOF | US15760973 | 2016-09-16 | US20180265629A1 | 2018-09-20 | John Albert BISSELL, II; Makoto Nathanael MASUNO; Alexander Crewe-Read MILLAR; Dimitri A. HIRSCH-WEIL |
| Provided herein are methods of producing polymers from furan and optionally diol compounds, using an organocatalyst. The furan compounds may include, for example, 2,5-furandicarboxylic acid or 2,5-tetrahydrofurandicarboxylic acid. Provided herein are also polymer compositions, such as poly(alkylene-2,5-furandicarboxylate). The polymer compositions herein have a low metal content. | ||||||
| 150 | Optimized stent jacket | US12791008 | 2010-06-01 | US10070976B2 | 2018-09-11 | Asher Holzer; Eli Bar; Ofir Paz |
| A method of stenting, comprises: implanting a stent assembly in a vessel of a subject, the stent assembly, including: a stent jacket, comprising an expansible mesh structure, formed of fibers of a diameter between about 7 micrometers and about 18 micrometers, the diameter having a property of forming a substantially stable layer of endothelial cells, covering the fibers, thus reducing platelet aggregation, and an expansible stent, operatively associated with the stent jacket. The method further comprises administering to the subject an active pharmaceutical ingredient (API) comprising a platelet aggregation reducer for a shortened time period, not exceeding six months, the shortened time period being a consequence of the property. In accordance with some embodiments, the administration of a platelet aggregation. | ||||||
| 151 | POLYESTER RESIN, METHOD FOR PRODUCING POLYESTER RESIN, RESIN COMPOSITION, RESIN-CLAD FABRIC, AND METHOD FOR PRODUCING RESIN-CLAD FABRIC | US15756302 | 2016-08-19 | US20180251937A1 | 2018-09-06 | Yoshiyuki Yaoita; Osamu Suzuki |
| In order to provide a polyester resin having excellent flexibility, transparency, solvent resistance, heat resistance, and water resistance and capable of being used for a protective layer of a fabric, and a resin-clad fabric obtained by forming a layer of the polyester resin on a fabric, the present invention provides a polyester resin including: a dicarboxylic acid residue; and a glycol residue, in which the dicarboxylic acid residue includes a terephthalic acid residue (a), an aliphatic dicarboxylic acid residue (b) having 6 to 12 carbon atoms, and a dimer acid residue or hydrogenated dimer acid residue (c), the glycol residue includes an ethylene glycol residue or diethylene glycol residue (d) and a branched aliphatic glycol residue (e) having 3 to 9 carbon atoms. | ||||||
| 152 | PRINTING MATERIAL FOR THREE-DIMENSIONAL PRINTING APPARATUS | US15475092 | 2017-03-30 | US20180229441A1 | 2018-08-16 | Kuo-Hsiung Wang; Chun-Wei Peng |
| A printing material for a three-dimensional (3D) printing apparatus is provided. The printing material includes a core and a shell covering the core, wherein the Shore hardness of the core is A45-A90, the Shore hardness of the shell is D40-D85, the Shore hardness of the shell is higher than the Shore hardness of the core, the volume percentage of the shell is 10% to 30%, and the volume percentage of the core is 70% to 90%. Since the printing material has a specific structure, feed abnormality during the printing material passing through a narrow inlet hole and guide tube may be prevented in the use of low-hardness material as the core. | ||||||
| 153 | Sustained release polymer | US15852170 | 2017-12-22 | US10047193B2 | 2018-08-14 | Richard L. Dunn |
| A polymer and a method for its preparation are provided. The polymer comprises poly(lactide), poly(lactide/glycolide) or poly(lactic acid/glycolic acid) segments bonded by ester linkages to both ends of an alkanediol core unit. The polymer is for use in a controlled release formulation for a medicament, preferably leuprolide acetate. The controlled release formulation is administered to a patient as a subcutaneous depot of a flowable composition comprising the polymer, a biocompatible solvent, and the medicament. Controlled release formulations comprising the polymer release leuprolide for treatment of prostate cancer patients over periods of 3-6 months. | ||||||
| 154 | Plant Extract Compositions for Forming Protective Coatings | US15943553 | 2018-04-02 | US20180222835A1 | 2018-08-09 | Ronald C. Bakus, II; Louis Perez; Camille Mol; James Rogers; Gabriel Rodriguez |
| Described herein are methods of preparing cutin-derived monomers, oligomers, or combinations thereof from cutin-containing plant matter. The methods can include heating the cutin-derived plant matter in a solvent at elevated temperature and pressure. In some preferred embodiments, the methods can be carried out without the use of additional acidic or basic species. | ||||||
| 155 | Foam compositions | US15151350 | 2016-05-10 | US10017605B2 | 2018-07-10 | David L. Trumbo; Nick Krogman; Daniel S. Nelson |
| Foam compositions are provided. The compositions are prepared from multi-functional acetoacetate esters and multi-functional amines or acrylates. The foam compositions can include one or more additives. The foam compositions can be used for home and commercial insulation, air sealing, sound proofing, structural improvement, and exterior roofing, among other applications. The foam compositions provide advantages of being isocyanate free and offer reduced exposure to isocyanate. | ||||||
| 156 | Toner compositions and processes | US15440578 | 2017-02-23 | US09971265B1 | 2018-05-15 | Guerino G. Sacripante; Yulin Wang; Richard P. N. Veregin |
| Disclosed are toner compositions that contain a core of at least one bio-based amorphous polyester resin, at least one of a crystalline polyester resin, an optional colorant, and an optional wax, and where the core is coated with a polymeric shell. | ||||||
| 157 | NOVEL SUSTAINED RELEASE POLYMER | US15852170 | 2017-12-22 | US20180118881A1 | 2018-05-03 | Richard L. Dunn |
| A polymer and a method for its preparation are provided. The polymer comprises poly(lactide), poly(lactide/glycolide) or poly(lactic acid/glycolic acid) segments bonded by ester linkages to both ends of an alkanediol core unit. The polymer is for use in a controlled release formulation for a medicament, preferably leuprolide acetate. The controlled release formulation is administered to a patient as a subcutaneous depot of a flowable composition comprising the polymer, a biocompatible solvent, and the medicament. Controlled release formulations comprising the polymer release leuprolide for treatment of prostate cancer patients over periods of 3-6 months. | ||||||
| 158 | PRESSURE SENSITIVE FLOW DISTRIBUTION MEDIUM FOR VARTM | US15802624 | 2017-11-03 | US20180050503A1 | 2018-02-22 | Erik Grove-Nielsen |
| A method for manufacturing a fibre reinforced composite by means of a vacuum assisted resin transfer moulding, comprising the steps of placing a fibre material in a mould, placing a flow distribution medium onto the fibre material, and covering the fibre material (1) and the flow distribution medium with a vacuum foil for forming a closed mould cavity between the mould and the vacuum foil is described. It is characterised in using a flow distribution medium with a thickness depending on a pressure gradient over the vacuum foil. | ||||||
| 159 | Blends of fluoroalkyl-containing ester oligomers with polycarbodiimide(s) | US14638244 | 2015-03-04 | US09828722B2 | 2017-11-28 | Chetan P. Jariwala; Cheryl L. S. Elsbernd; Thomas M. Butler |
| For imparting enhanced water-repellency and oil-repellency properties to substrates compositions comprising blends of (A) one or more ester oligomers and (B) one or more polycarbodiimides. Also methods for applying such compositions and articles treated with such compositions. | ||||||
| 160 | POLYMERS FROM MUCONIC ACID ISOMERS AND ITS DERIVATIVES | US15522123 | 2015-10-23 | US20170335031A1 | 2017-11-23 | Jay L. Milan; Michael Mang; Cenan Ozmeral |
| This invention relates to a process for preparing succinic acid and succinate ester from a succinic acid salt in fermentation broth. In the first stage of this invention, renewable carbon resources are utilized to produce succinic acid through biological fermentation. The succinic acid salt in the fermentation process is subjected to double displacement reaction with a strong acid leading to release of succinic acid. Succinic acid is recovered by fractional crystallization integrated with simulated moving bed chromatography to produce succinic acid and succinate ester. | ||||||
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