Material Contains Ether Patents (Class 526/209)
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Patent number: 8674004Abstract: A rubber composition with disperse phase particles containing poly(phenylene ether) can be formed by a method that includes melt blending an uncured rubber with a poly(phenylene ether) composition containing a poly(phenylene ether) and an oil to form an uncured rubber composition, then curing the uncured rubber composition. Before being blended with the rubber, the poly(phenylene ether) composition exhibits a glass transition temperature of about 40 to about 140° C., and during blending with the rubber, the oil component of poly(phenylene ether) composition migrates from the poly(phenylene ether) composition to the rubber, leaving a poly(phenylene ether)-containing disperse phase that gives rise to a second hysteresis peak temperature of about 160 to about 220° C. as measured by dynamic mechanical analysis of the cured rubber composition.Type: GrantFiled: August 27, 2013Date of Patent: March 18, 2014Assignee: Sabic Innovative Plastics IP B.V.Inventors: Scott Michael Fisher, Qiwei Lu, William Eugene Pecak, Michael Joseph O'Brien
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Patent number: 8673275Abstract: A process of free-radical copolymerization of a monomer composition comprising: a) 70 to 100% by weight of acrylic acid, b) 0 to 30% by weight of at least one hydrophilic nonionic compound, different from a), having a free-radically polymerizable, ?,?-ethylenically unsaturated double bond, c) 0 to 1% by weight of at least one free-radically polymerizable crosslinking compound which comprises at least two ?,?-ethylenically unsaturated double bonds per molecule, by the method of precipitation polymerization in the presence of an auxiliary composition H) comprising H1) at least one compound with a block structure which comprises at least one hydrophobic group and at least one hydrophilic group, and H2) at least one basic compound different from H1).Type: GrantFiled: March 2, 2011Date of Patent: March 18, 2014Assignee: BASF SEInventors: Son Nguyen Kim, Wolfgang Jahnel
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Publication number: 20140039130Abstract: A peroxide-crosslinkable fluorine-containing elastomer IS produced by subjecting a fluorine-containing olefin and a perfluoroalkyl divinyl ether monomer represented by the general formula: CF2?CF—[OCF2CF(CF3)]aO(CF2)bO[CF(CF3)CF2O]c—CF?CF2 wherein a+c is an integer of 0 to 4 and b is an integer of 2 or more, to a copolymerization reaction; wherein the perfluoroalkyl divinyl ether monomer is added for copolymerization separately before and after the copolymerization reaction starts, or the total amount thereof is added for copolymerization after the copolymerization reaction starts. A peroxide-crosslinked molded product of the obtained fluorine-containing elastomer exhibits high compression set characteristic, while reducing a decrease in breaking strength, a decrease in elongation at break or an increase in hardness.Type: ApplicationFiled: April 9, 2012Publication date: February 6, 2014Applicant: Unimatec Co., Ltd.Inventors: Daisuke Murai, Mitsuru Maeda
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Patent number: 8623975Abstract: A process for preparing a polydiene, the process comprising the step of polymerizing conjugated diene monomer in the presence of a dihydrocarbyl ether, where said step of polymerizing takes place within a polymerization mixture that includes less than 20% by weight of organic solvent based on the total weight of the polymerization mixture, and where said step of polymerizing employs a lanthanide-based catalyst system that includes the combination of or reaction product of ingredients including (a) a lanthanide compound, (b) an aluminoxane, (c) an organoaluminum compound other than an aluminoxane, and (d) a bromine-containing compound selected from the group consisting of elemental bromine, bromine-containing mixed halogens, and organic bromides.Type: GrantFiled: June 24, 2010Date of Patent: January 7, 2014Assignee: Bridgestone CorporationInventors: Steven Luo, Kevin M. McCauley, Jason T. Poulton
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Publication number: 20140005346Abstract: Provided herein is a (meth)acrylic resin that has less impurities and is less likely to deteriorate in transparency or turn yellow during molding processing, which is not obtainable by conventional suspension polymerization. The invention is a method for producing a methyl methacrylate polymer, comprising suspension polymerization of 30 to 100 wt % of methyl methacrylate and 70 to 0 wt % of a monomer copolymerizable therewith to produce a methyl methacrylate polymer, wherein the polymerization is initiated in the presence of 350 ppm or less of a suspension stabilizer relative to the monomer(s) and then a suspension stabilizer is added when a polymerization conversion ratio reaches 20 to 90%.Type: ApplicationFiled: December 27, 2011Publication date: January 2, 2014Applicant: KANEKA CORPORATIONInventor: Fuminobu Kitayama
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Publication number: 20130344159Abstract: The present invention relates to a polymer obtained from the polymerization of: (i) at least one monomer of formula (I) (CH2?CR1)CO—K (1) wherein: K represents O—Z or NH—Z, Z representing (CR2R3)m-CH3, (CH2—CH2—O)m-H, (CH2—CH2—O)m-CH3, (CH2)m-NR4R5 with m representing an integer from 1 to 30; R1, R2, R3, R4 and R5 independently represent H or a C1-C6 alkyl; (ii) at least between 0.1 and 50% mol, advantageously between 1 and 30% mol, more advantageously between 1 and 20 mol % of a cyclic monomer having a exomethylene group of formula (II) wherein: R6, R7, R8 and R9 represent independently H or a C5-C7 aryl group or R6 and R9 are absent and R7 and R8 form together with the carbon atom on which they are bonded a C5-C7 aryl group; i and j represent independently an integer chosen between 0 and 2; X represents either O or X is not present and in this latter case, CR6R7 and CR8R9 are linked via a single bond C—C and (iii) at least one bio-resorbable block copolymer cross-linker.Type: ApplicationFiled: March 9, 2012Publication date: December 26, 2013Applicants: OCCLUGEL, UNIVERSITE PARIS DIDEROT - PARIS 7, ASSISTANCE PUBLIQUE-HOPITAUX DE PARIS, CENTRE NATIONAL DE LA RECHERCHE SCIENTIFIQUEInventors: Laurence Moine, Alexandre Laurent, Michel Wassef, Laurent Bedouet, Stephanie Louguet, Valentin Verret, Emeline Servais
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Publication number: 20130345381Abstract: The invention relates to a method for synthesizing 2,3,3,3-tetrafluoropropene containing fluoropolymers using non-fluorinated surfactants in an emulsion process. No fluorinated surfactants are used in the process, and a persulfate initiator is used as the primary initiator. The process produces high molecular weight copolymers.Type: ApplicationFiled: March 15, 2012Publication date: December 26, 2013Inventors: Ramin Amin-Sanayei, Caiping Lin, Cedric Airaud
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Patent number: 8614284Abstract: The present invention relates to a branched vinyl polymer carrying dendrons made from monofunctional vinyl monomers and branched by virtue of difunctional vinyl monomers so that there is on average one branch or fewer per polymer chain to avoid gelation. The polymer may be made by chain-growth polymerization of predominantly monofunctional vinyl monomers in the presence of difunctional vinyl monomers and dendron units.Type: GrantFiled: April 6, 2009Date of Patent: December 24, 2013Assignee: The University of LiverpoolInventors: Gwenaelle Bonzi, Jonathan Weaver, Andrew Cooper, Steven Rannard
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Patent number: 8604146Abstract: Disclosed herein are catalyst compositions and polymers, i.e., propylene-based polymers, produced therefrom. The present catalyst compositions include an internal electron donor with a compounded alkoxyalkyl ester and optionally a mixed external electron donor. The present catalyst compositions improve catalyst selectivity, improve catalyst activity, and/or improve hydrogen response. Propylene-based polymer produced from the present catalyst composition has a melt flow rate greater than 10 g/10 min.Type: GrantFiled: December 21, 2010Date of Patent: December 10, 2013Assignee: Dow Global Technologies LLCInventors: Linfeng Chen, Kelly Gonzalez
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Patent number: 8586641Abstract: The present invention relates to a monolithic organic copolymer prepared by copolymerization of at least one monomer of the group consisting of styrene, (C1-C3)alkylstyrene, (meth)acrylic acid and esters thereof with a crosslinker in the presence of a macroporogen and a microporogen, wherein a) the sum of said at least one monomer of the group and the crosslinker is 10-20%, preferably 10-15%, by volume of the reaction mixture, with the rest being essentially macroporogen and microporogen, and the degree of said copolymerization is at least 70%, preferably at least 90%, more preferably at least 99%, or b) the sum of said at least one monomer of the group and the crosslinker is 30-50%, preferably 35-45%, by volume of the reaction mixture, with the rest being essentially macroporogen and microporogen, and the degree of said copolymerization is in the range of 25-60%, preferably 35-50%.Type: GrantFiled: October 19, 2006Date of Patent: November 19, 2013Assignee: Leopold-Franzens-Universitat InnsbruckInventors: Lukas Trojer, Günther Bonn
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Publication number: 20130296512Abstract: The present invention pertains to a fluoropolymer [polymer (F)] comprising: recurring units derived from vinylidene fluoride (VDF); from 10% to 50% by moles of recurring units derived from trifluoroethylene (TrFE); and from 0.01% to 10% by moles of recurring units derived from at least one (meth)acrylic monomer [monomer (MA)] having formula (I) here below: wherein: R1, R2 and R3, equal to or different from each other, are independently selected from a hydrogen atom and a C1-C3 hydrocarbon group, and ROH represents a hydrogen atom or a C1-C5 hydrocarbon moiety comprising at least one hydroxyl group. The invention also pertains to a process for the manufacture of said polymer (F) and to use of said polymer (F) as ferroelectric, piezoelectric, pyroelectric or dielectric material in electrical and electronic devices.Type: ApplicationFiled: December 13, 2011Publication date: November 7, 2013Applicant: SOLVAY SPECIALTY POLYMERS ITALY S.P.A.Inventors: Alessio Marrani, Giulio Brinati
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Patent number: 8575285Abstract: Provided is a catalyst used for a living radical polymerization method, which contains a central element consisting of carbon and at least one halogen atom binding to the central element. Further, a hydrocarbon compound can be used as a catalyst precursor. A monomer having a radical-reactive unsaturated bond is subjected to a radical polymerization reaction in the presence of the catalyst, consequently a polymer having narrow molecular weight distribution can be obtained, and thus the cost of the living radical polymerization can be remarkably reduced. The present invention is significantly more environmentally friendly and economically excellent than conventional living radical polymerization methods, due to advantages such as low toxicity of the catalyst, low amount of the catalyst used, high solubility of the catalyst, mild reaction conditions, and no coloration/no odor (no need of any post-treatments for a molded article), and the like.Type: GrantFiled: September 8, 2009Date of Patent: November 5, 2013Assignee: Kyoto UniversityInventors: Atsushi Goto, Yoshinobu Tsujii, Takeshi Fukuda
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Patent number: 8575286Abstract: A polymer comprising recurring units derived from vinylidene fluoride (VDF) and trifluoroethylene (TrFE), such polymer comprising end groups of formula —CF2H and/or —CF2CH3 in an amount of at least 60 mmoles per kg of VDF recurring units [polymer (F)], a process for its manufacture and the use thereof as ferroelectric, piezoelectric, dielectric or pyroelectric material in electric/electronic devices.Type: GrantFiled: May 26, 2009Date of Patent: November 5, 2013Assignee: Solvay Solexis S.p.A.Inventors: Giulio Brinati, Alessio Marrani, Bernard Goffaux
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Patent number: 8557937Abstract: A rubber composition with disperse phase particles containing poly(phenylene ether) can be formed by a method that includes melt blending an uncured rubber with a poly(phenylene ether) composition containing a poly(phenylene ether) and an oil to form an uncured rubber composition, then curing the uncured rubber composition. Before being blended with the rubber, the poly(phenylene ether) composition exhibits a glass transition temperature of about 40 to about 140° C., and during blending with the rubber, the oil component of poly(phenylene ether) composition migrates from the poly(phenylene ether) composition to the rubber, leaving a poly(phenylene ether)-containing disperse phase that gives rise to a second hysteresis peak temperature of about 160 to about 220° C. as measured by dynamic mechanical analysis of the cured rubber composition.Type: GrantFiled: June 5, 2012Date of Patent: October 15, 2013Assignee: Sabic Innovative Plastics IP B.V.Inventors: Scott Michael Fisher, Qiwei Lu, William Eugene Pecak, Michael J. O'Brien
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Publication number: 20130264522Abstract: The present invention pertains to a fluoropolymer [polymer (F)] comprising: recurring units derived from vinylidene fluoride (VDF), and from 0.01% to 5% by moles of recurring units derived from at least one (meth)acrylic monomer [monomer (MA)] having formula (I) here below: wherein: R1, R2 and R3, equal to or different from each other, are independently selected from a hydrogen atom and a C1-C3 hydrocarbon group, and ROH represents a hydrogen atom or a C1-C5 hydrocarbon moiety comprising at least one hydroxyl group, said polymer (F) comprising end groups having formula —CF2H and/or —CF2CH3 in an amount of at least 30 mmoles per Kg of vinylidene fluoride (VDF) recurring units. The invention also pertains to a process for the manufacture of said polymer (F) and to use of said polymer (F) as binders for the manufacture of electrodes or for the manufacture of membranes.Type: ApplicationFiled: December 13, 2011Publication date: October 10, 2013Applicant: SOLVAY SPECIALTY POLYMERS ITALY S.P.A.Inventors: Milena Stanga, Bradley Lane Kent, Alessio Marrani, Giulio Brinati
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Publication number: 20130267669Abstract: Provided herein are methods for the preparation of telechelic polyolefins via polymerization reaction with a terpene initiator.Type: ApplicationFiled: June 5, 2013Publication date: October 10, 2013Inventors: Casey D. Stokes, Young Chang
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Patent number: 8552128Abstract: A process for the preparation of a fluoroolefin polymer from an azeotropic mixture of monomers having a constant composition, the process including the step of: contacting in a reaction zone: (i) an initiator; and (ii) an azeotropic mixture of monomers including at least one fluoroolefin and, optionally, at least one ethylenically unsaturated comonomer capable of copolymerizing therewith; wherein the contacting is carried out at a temperature, pressure and length of time sufficient to produce the fluoroolefin polymer.Type: GrantFiled: December 20, 2007Date of Patent: October 8, 2013Assignee: Honeywell International Inc.Inventors: George J Samuels, Gregory J Shafer, Hang T Pham
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Publication number: 20130261273Abstract: Disclosed are catalyst compositions having an internal electron donor which includes a 3,6-di-substituted-1,2-phenylene aromatic diester. Ziegler-Natta catalyst compositions containing the present catalyst compositions exhibit very high hydrogen response, high activity, high selectivity and produce propylene-based olefins with high melt flow rate.Type: ApplicationFiled: December 20, 2011Publication date: October 3, 2013Inventors: Linfeng Chen, Tak W. Leung, Tao Tao, Kuanqiang Gao
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Patent number: 8536290Abstract: Disclosed herein are catalyst compositions and polymers, i.e., propylene-based polymers, produced therefrom. The present catalyst compositions contain an internal electron donor of an alkoxyalkyl 2-propenoate and optionally a mixed external electron donor. The present catalyst compositions improve catalyst selectivity and polymer stiffness. Polypropylene homopolymer produced from the present catalyst composition has a xylene solubles content less than 4 wt % and a TMF greater than 172.0° C.Type: GrantFiled: December 21, 2010Date of Patent: September 17, 2013Assignee: Dow Global Technologies LLCInventors: Linfeng Chen, Tak W. Leung, Tao Tao
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Publication number: 20130233093Abstract: A method of extracting an analyte from a sample is described where the sample includes water. The sample and polymeric drying agent are added to a container. The polymeric drying agent includes a cationic monomer, an anionic monomer, and a crosslinker. The polymeric drying agent is configured to sorb water from the sample.Type: ApplicationFiled: March 8, 2012Publication date: September 12, 2013Inventors: Christopher A. POHL, Kannan SRINIVASAN, SM Rahmat ULLAH
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Patent number: 8519071Abstract: Provided are low-viscosity aqueous compositions comprising compounds of Formula (III) and (IV). These compositions are prepared by jointly ethoxylating a mixture of the compounds of the Formula (I) and (II) to give an intermediate which represents a mixture of compounds of Formulas (I*) and (II*). The intermediate is then converted by sulfation or phosphation and subsequent neutralization, into an aqueous composition comprising the compounds of Formula (III) and (IV). The aqueous compositions are notable for having, at 20° C., a Brookfield viscosity of 3000 mPas or less (measured at 20° C. with spindle 2 and 20 rpm), and are suitable as emulsifiers for emulsion polymerization.Type: GrantFiled: November 17, 2011Date of Patent: August 27, 2013Assignee: Cognis IP Management GmbHInventors: Thomas Schliwka, Ronald Klagge, Uwe Held, Thomas Mausberg
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Publication number: 20130217847Abstract: Preparation of isobutene homopolymers having a weight-average molecular weight of 75 000 to 10 000 000 by polymerization of isobutene, by (a) performing the polymerization at ?80° C. to ?190° C., (b) using, as an inert solvent, optionally halogenated C1 to C5 hydrocarbons, (c) using, as a polymerization catalyst, a Lewis acid complex, (d) performing the polymerization in the presence of at least one reaction accelerator in the form of an ethylenically saturated hydrocarbon compound comprising one oxygen atom and no abstractable proton, and (e) performing the polymerization in the presence of at least one chain length regulator comprising one tertiary olefinic carbon atom.Type: ApplicationFiled: February 12, 2013Publication date: August 22, 2013Inventors: Thomas WETTLING, Stefan Hirsch, Markus Brym, Markus Weis
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Patent number: 8492483Abstract: To provide a novel ABA-type triblock copolymer of vinyl ether series, comprising polyvinyl ether and an oxystyrene-series unit, and a process of producing the ABA-type copolymer at a series of steps. The invention relates to a novel ABA-type triblock copolymer comprising Segment A comprising an oxystyrene-series repeat unit (a) and Segment B comprising a vinyl ether-series repeat unit (b), in which the Segment A and the Segment B are bonded together with a single bond, and to a simple process of producing the same. The triblock copolymer can be produced at a series of steps in a simple manner, comprising living cationic polymerization of a vinyl ether-series monomer such as ethyl vinyl ether in the presence of a bifunctional initiator and a Lewis acid, and subsequently adding an oxystyrene-series monomer such as p-hydroxystyrene for living cationic polymerization.Type: GrantFiled: June 19, 2008Date of Patent: July 23, 2013Assignee: Maruzen Petrochemical Co., Ltd.Inventors: Norihiro Yoshida, Hijiri Aoki, Takahito Mita, Ami Yamaguchi, Kazuhiko Haba, Goro Sawada
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Patent number: 8476341Abstract: The present invention provides a multi-branched polyalkylene glycol polymer useful for various applications, especially for an admixture for cement, a dispersant, admixture for cement, and cement composition each comprising the same, a thiol compound having a polyalkylene glycol chain useful for materials and the like of the polymer, and a method for easily and effectively producing the multi-branched polyalkylene glycol polymer and the thiol compound having a polyalkylene glycol chain at low cost. The multi-branched polymer comprises: a polyalkylene glycol chain; a residue of a compound having three or more active hydrogen atoms; and a polymer portion having a constitutional unit derived from a vinyl monomer component, one end of the polyalkylene glycol chain bonding to the residue, and a terminal oxygen atom of at least one of the other ends of the polyalkylene glycol chain bonding to a main chain end of the polymer portion directly or via an organic residue.Type: GrantFiled: September 8, 2009Date of Patent: July 2, 2013Assignee: Nippon Shokubai Co., Ltd.Inventors: Noboru Sakamoto, Tsutomu Yuasa
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Publication number: 20130165360Abstract: The synthesis of high performance polyvinyl ether (PVE) synthetic fluids using a Lewis acid based cationic polymerization process is disclosed. The polyvinyl ether fluid have repeating vinyl ether units of the general formula —[CH2—CH (O—R)]n, wherein R is comprised of a branched or linear alkyl group having at least 4 carbon atoms and n is a whole number representing the average number of repeating units in the polyvinyl ether. The resulting PVE fluids exhibit excellent lubricant properties, similar to poly-alpha olefins (PAOs), but the PVE fluids have the benefit of higher polarity than PAOs and thus have better solubility and dispersity of polar additives.Type: ApplicationFiled: December 21, 2011Publication date: June 27, 2013Applicant: EXXONMOBIL RESEARCH AND ENGINEERING COMPANYInventors: Abhimanyu Onkar Patil, Satish Bodige, Ranjan Tripathy
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Publication number: 20130158217Abstract: A method for producing highly reactive olefin polymers wherein at least 50 mol. % of the polymer chains have terminal double bonds, and a novel polymerization initiating system for accomplishing same.Type: ApplicationFiled: December 16, 2011Publication date: June 20, 2013Applicants: INFINEUM INTERNATIONAL LIMITED, UNIVERSITY OF MASSACHUSETTSInventors: Rudolf Faust, Philip Dimitrov, Rajeev Kumar, Jacob Emert, Jun Hua
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Patent number: 8440772Abstract: Catalyst deactivating agents and compositions containing catalyst deactivating agents are disclosed. These catalyst deactivating agents can be used in methods of controlling polymerization reactions, methods of terminating polymerization reactions, methods of operating polymerization reactors, and methods of transitioning between catalyst systems.Type: GrantFiled: April 28, 2011Date of Patent: May 14, 2013Assignee: Chevron Phillips Chemical Company LPInventors: Qing Yang, Max P. McDaniel, Tony R. Crain, Kathy S. Collins
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Publication number: 20130116377Abstract: The present invention relates to new acrylic associative thickening agents which, when polymerized in the presence of particular polyglycerols, ultimately result in an increase of the open time of the paint or of the thick coating in which they are in incorporated. By so doing, painters and applicators will have more time to work the paint layers gradually or to correct imperfections such as paint droplets, and traces of brushes and filling-knives.Type: ApplicationFiled: November 2, 2012Publication date: May 9, 2013Applicant: Coatex S.A.S.Inventor: Coatex S.A.S.
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Patent number: 8404797Abstract: An end-modified soluble polyfunctional vinyl aromatic copolymer, which is improved in heat resistance, thermal stability, solvent solubility, and compatibility with acrylate compounds, and a curable resin composition using the same are disclosed. The end-modified soluble polyfunctional vinyl aromatic copolymer is obtained by allowing a divinyl aromatic compound (a), a monovinyl aromatic compound (b), and an aromatic ether compound (c) to react with each other, and has, at an end, an end group derived from the aromatic ether compound and having an acrylate bond. The copolymer has a number average molecular weight Mn of 500 to 100,000, an introduction amount (c1) of the end group derived from the aromatic ether compound satisfies (c1)?1.0 (group/molecule), a molar fraction a? of a structural unit derived from the divinyl aromatic compound and a molar fraction b? of a structural unit derived from the monovinyl aromatic compound in the copolymer satisfy 0.05?a?/(a?+b?)?0.95.Type: GrantFiled: March 3, 2009Date of Patent: March 26, 2013Assignee: Nippon Steel Chemical Co., Ltd.Inventors: Masanao Kawabe, Hiroko Terao, Natsuko Okazaki
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Patent number: 8404790Abstract: A method of making a fluoropolymer in the presence of a fluorinated surfactant.Type: GrantFiled: February 23, 2012Date of Patent: March 26, 2013Assignee: 3M Innovative Properties CompanyInventors: Klaus Hintzer, Michael Jürgens, Harald Kaspar, Kai H. Lochhaas, Andreas R. Maurer, Werner Schwertfeger, Tilman C. Zipplies
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Patent number: 8399703Abstract: The invention provides a compound which is useful in production of a fluoropolymer and easy to be removed from the produced fluoropolymer, a method of producing the compound, and a method of producing a fluoropolymer using the compound. The invention provides a compound which is represented by Rf1—CH2O—CF2—CHF—Rf2—X, wherein Rf1 represents a fluoroalkyl group containing 1 to 5 carbon atoms, Rf2 represents a fluoroalkylene group containing 1 to 3 carbon atoms, X represents —COOM or —SO3M, and M represents one of H, K, Na, and NH4.Type: GrantFiled: July 24, 2008Date of Patent: March 19, 2013Assignee: Daikin Industries, Ltd.Inventors: Nobuhiko Tsuda, Akinari Sugiyama
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Publication number: 20130059995Abstract: Preparation of high-reactivity isobutene homo- or copolymers with a content of terminal vinylidene double bonds per polyisobutene chain end of at least 50 mol % and a polydispersity of preferably 1.05 to less than 3.5, by polymerizing isobutene or an isobutene-comprising monomer mixture in the presence of an aluminum trihalide-donor complex effective as a polymerization catalyst or of an alkylaluminum halide-donor complex, especially of an aluminum trichloride-donor complex, said complex comprising, as the donor, an organic compound with at least one ether function or a carboxylic ester function.Type: ApplicationFiled: November 2, 2012Publication date: March 7, 2013Inventors: Hannah Maria KOENIG, Klaus Muelbach, Matthias Kiefer, Sergei V. Kostjuk, Irina Vasilenko, Alexander Frolov
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Publication number: 20130041121Abstract: Preparation of high-reactivity isobutene homo- or copolymers with a content of terminal vinylidene double bonds per polyisobutene chain end of at least 50 mol % by polymerization of isobutene or isobutene-comprising monomer mixtures in the presence of Lewis acids suitable as polymerization catalysts or of complexes which are effective as polymerization catalysts and are formed from Lewis acids and donors, and in the presence of initiators, wherein the initiators used are organic sulfonic acids Z—SO3H in which the variable Z denotes an alkyl radical, haloalkyl radical, cycloalkyl radical, aryl radical or arylalkyl radical.Type: ApplicationFiled: August 7, 2012Publication date: February 14, 2013Applicant: BASF SEInventors: Hannah Maria KÖNIG, Klaus Mühlbach, Thomas Wettling, Ulrich Eichenauer, Herbert Mayr
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Patent number: 8362150Abstract: A method for copolymerizing alkenyl aromatic monomer and conjugated diene in the gas phase. Other embodiments include methods for forming anionic gas-phase polymerization using a solid-supported anionic polymerization catalyst.Type: GrantFiled: February 20, 2009Date of Patent: January 29, 2013Assignee: Bridgestone CorporationInventor: William L. Hergenrother
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Publication number: 20130005923Abstract: The present invention relates to an improvement for gas-phase olefin polymerization process having relatively high bed bulk density. The improvement involves the use of mixed external electron donors when polymerizing propylene in a gas-phase reactor having a polymer bed with a bulk density greater than 128 kg/m3, optionally with one or more comonomers, wherein the mixed electron donor system comprises at least a first external electron donor and a second external electron donor, and wherein the first external electron donor is a carboxylate compound.Type: ApplicationFiled: June 30, 2011Publication date: January 3, 2013Applicant: Dow Global Technologies LLCInventors: Ping Cai, Jan W. Van Egmond, Matthew J. Fedec, Jeffrey D. Goad, Robert C. Brady, III, Linfeng Chen
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Publication number: 20120309900Abstract: To provide a novel compound having both a surface-activating ability and a polymerization controlling ability. A compound represented by the following general formula (1) or (2): wherein, R1 and R3 are an organic group having the hydrophile-lipophile balance (HLB) determined by Griffin's method of 3 or more. The definitions of R1, R2, R3, R4, Z, p and q are described in the Description.Type: ApplicationFiled: January 27, 2011Publication date: December 6, 2012Applicant: Mitsubishi Rayon Co., Ltd.Inventors: Tetsuya Noda, Fuminori Nakaya, Keiichi Sakashita, Yousuke Matsunaga, Taeko Oonuma, Yoshiko Irie
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Publication number: 20120302657Abstract: Composition which contains polymerizable binder and an initiator according to the following Formula I: R1—X—O—O—[Y—O—O—-]nR2??(Formula I) and having a large through-curing depth and a sufficiently long processing time and which cures without the development of high temperatures.Type: ApplicationFiled: November 14, 2011Publication date: November 29, 2012Applicant: IVOCLAR VIVADENT AGInventors: Norbert MOSZNER, Ulrich SALZ, Peter BURTSCHER, Robert LISKA, Astrid GUGG, Christian GORSCHE
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Publication number: 20120291793Abstract: The invention provides a method of isolating certain target compounds from tobacco, tobacco materials or smoke generated by a smoking article. The method can be used to remove undesirable compounds from tobacco, tobacco materials, or tobacco smoke. The method can also be used to remove flavor compounds from tobacco or tobacco materials, which can then be used as flavor components for tobacco material used in smoking articles and smokeless tobacco compositions.Type: ApplicationFiled: May 19, 2011Publication date: November 22, 2012Inventors: Crystal Dawn Hege Byrd, Anthony Richard Gerardi
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Patent number: 8283427Abstract: A process for cationically polymerizing olefin monomers in a reaction mixture includes the step of contacting olefin monomers and a catalytically effective amount of an initiating composition containing (A) a heterogeneous perfluoroaryl substituted Lewis acid coinitiator selected from the group consisting of open chain and cyclic aluminoxane compounds or Group 13 perfluoroaryl Lewis acid compounds of formula (III) and (B) an initiator selected from the group consisting of (i) organic compounds, (ii) halogens, (iii) interhalogens; (iv) Brönsted acids, (v) boron halides; (vi) silicon compounds; and (vii) germanium compounds. A novel initiator system is further disclosed.Type: GrantFiled: May 6, 2010Date of Patent: October 9, 2012Inventor: Stewart P. Lewis
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Publication number: 20120238715Abstract: The present invention relates to isoolefin polymers and process for preparing the same. The present invention especially discloses a polymerization process for the cationic polymerization of isoolefin monomers in an aqueous reaction medium, and isoolefin polymers obtained by such process. In one embodiment, the present invention relates to a polymerization process for the cationic polymerization of isoolefin monomers in an aqueous reaction medium, and isoolefin polymers obtained therefrom. In another embodiment, the present invention relates to a dispersion polymerization process for the cationic copolymerization of isoolefins with conjugated or non-conjugated diolefins and/or vinyl aromatic compounds, and copolymers obtained therefrom.Type: ApplicationFiled: September 21, 2010Publication date: September 20, 2012Inventors: Yixian Wu, Qiang Huang, Han Zhou, Ruting Jin, Ping He
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Patent number: 8247507Abstract: The present invention relates to a method for producing polymers by radically polymerizing a mixture comprising 99.99 to 10% by weight of at least one ?,?-ethylenically unsaturated compound with at least one cationogenic and/or cationic group per molecule, 0 to less than 25% by weight of at least one monoethylenically unsaturated amide-group-containing compound different from a) and also 0.01 to 5% by weight of a crosslinker using at least two different water-insoluble initiators.Type: GrantFiled: September 14, 2007Date of Patent: August 21, 2012Assignee: BASF SEInventors: Ivette Garcia Castro, Son Nguyen Kim, Wolfgang Jahnel, Matthias Laubender, Rolf Werner
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Publication number: 20120190807Abstract: A method of making a fluoropolymer in the presence of a fluorinated surfactant.Type: ApplicationFiled: February 23, 2012Publication date: July 26, 2012Inventors: Klaus Hintzer, Michael Jürgens, Harald Kaspar, Kai H. Lochhass, Andreas R. Maurer, Werner Schwertfeger, Tilman C. Zipplies
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Publication number: 20120190796Abstract: To provide a fluorinated elastic copolymer excellent in crosslinkability irrespective of the molecular weight and a process for its production, as well as a crosslinked rubber article. A fluorinated elastic copolymer which has iodine atoms, bromine atoms, or both iodine and bromine atoms, at its molecular terminals and which comprises repeating units (a) based on tetrafluoroethylene, repeating units (b) based on a fluorinated monomer having one polymerizable unsaturated bond (provided that tetrafluoroethylene is excluded), and repeating units (c) based on a fluorinated monomer having at least two polymerizable unsaturated bonds, wherein the ratio (molar ratio) of the repeating units (a) to the repeating units (b) is (a)/(b)?40/60 to 90/10, and the proportion of the repeating units (c) based on the total amount of the repeating units (a) and the repeating units (b) is from 0.01 to 1 mol %.Type: ApplicationFiled: July 15, 2011Publication date: July 26, 2012Applicant: ASAHI GLASS COMPANY, LIMITEDInventors: Hiroshi Funaki, Kunio Watanabe, Keigo Matsuura, Ng Soon Yeng
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Publication number: 20120183848Abstract: Provided is a binder for secondary battery electrodes comprising polymer particles obtained by polymerizing (a) a (meth)acrylic acid ester monomer; (b) at least one monomer selected from the group consisting of an acrylate monomer, a vinyl monomer and a nitrile monomer; and (c) a (meth)acrylamide monomer and an unsaturated monocarbonic acid monomer, with two or more cross-linking agents with different molecular weights. Based on the combination of specific components, the binder basically improves stability of an electrode in the process of fabricating the electrode, thus providing secondary batteries with superior cycle properties.Type: ApplicationFiled: December 16, 2011Publication date: July 19, 2012Applicant: LG CHEM, LTD.Inventors: MinAh KANG, Young-Min KIM, Bhom Ri KIM, Ok Sun KIM
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Publication number: 20120157644Abstract: [PROBLEM] It is an object of the present invention to efficiently obtain efficiently a water-absorbent resin having excellent property. [SOLUTION] A production method for a water-absorbent resin, comprising: a polymerization step for obtaining hydrogel by subjecting a monomer aqueous solution to a polymerization reaction; and a drying step for drying the hydrogel; wherein drying in the drying step is performed using a continuous through-flow belt-type drying machine; pore opening rate of the through-flow belt in the continuous through-flow belt-type drying machine is 20 to 50%; solid content of the hydrogel supplied to the drying step is 35% by weight or more; and area occupancy rate of the hydrogel is 85 to 100% relative to the through-flow belt.Type: ApplicationFiled: August 30, 2010Publication date: June 21, 2012Applicant: NIPPON SHOKUBAI CO., LTD.Inventors: Shinichi Fujino, Kozo Nogi, Kunihiko Ishizaki
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Publication number: 20120157643Abstract: Disclosed herein are catalyst compositions and polymers, i.e., propylene-based polymers, produced therefrom. The present catalyst compositions contain an internal electron donor of an alkoxyalkyl 2-propenoate and optionally a mixed external electron donor. The present catalyst compositions improve catalyst selectivity and polymer stiffness. Polypropylene homopolymer produced from the present catalyst composition has a xylene solubles content less than 4 wt % and a TMF greater than 172.0° C.Type: ApplicationFiled: December 21, 2010Publication date: June 21, 2012Inventors: Linfeng Chen, Tak W. Leung, Tao Tao
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Publication number: 20120157642Abstract: Disclosed herein are catalyst compositions and polymers, i.e., propylene-based polymers, produced therefrom. The present catalyst compositions include an internal electron donor with a compounded alkoxyalkyl ester and optionally a mixed external electron donor. The present catalyst compositions improve catalyst selectivity, improve catalyst activity, and/or improve hydrogen response. Propylene-based polymer produced from the present catalyst composition has a melt flow rate greater than 10 g/10 min.Type: ApplicationFiled: December 21, 2010Publication date: June 21, 2012Inventors: Linfeng Chen, Kelly Gonzalez
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Publication number: 20120149859Abstract: Provided are a latex for dip molding, a composition for dip molding, a preparation method of a dip molded product, and a dip molded product prepared thereby. The latex for dip molding includes a conjugated diene monomer, an ethylenically unsaturated nitrile monomer, and an ethylenically unsaturated acid monomer, wherein the latex further includes sodium methallyl sulfonate as a copolymerizable ionic monomer. A dip molded product having excellent tensile strength, elongation, and touch may be obtained from a composition using the latex according to the present invention, and the generation of limitations, such as non-uniformity of physical properties and difficulties in product management, may be prevented.Type: ApplicationFiled: June 11, 2010Publication date: June 14, 2012Applicant: LG CHEM, LTDInventors: Seung Hun Yang, Ho Yeul Choi, Jung Su Han, Byoung Yun Kim, Jung Eun Kim
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Publication number: 20120130035Abstract: Provided are low-viscosity aqueous compositions comprising compounds of Formula (III) and (IV). These compositions are prepared by jointly ethoxylating a mixture of the compounds of the Formula (I) and (II) to give an intermediate which represents a mixture of compounds of Formulas (I*) and (II*). The intermediate is then converted by sulfation or phosphation and subsequent neutralization, into an aqueous composition comprising the compounds of Formula (III) and (IV). The aqueous compositions are notable for having, at 20° C., a Brookfield viscosity of 3000 mPas or less (measured at 20° C. with spindle 2 and 20 rpm), and are suitable as emulsifiers for emulsion polymerization.Type: ApplicationFiled: November 17, 2011Publication date: May 24, 2012Applicant: Cognis IP Management GmbHInventors: Thomas Schliwka, Ronald Klagge, Uwe Held, Thomas Mausberg
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Patent number: 8178465Abstract: The disclosure provides for a process and polymerization system to produce isoolefin polymers (72) utilizing polymorphogenates (16, 26) in the catalyst system to control polydispersity (MWD). The disclosure also provides a catalyst system (20) comprising a plurality of active catalyst complex species (34) formed by combination of a Lewis acid (24), an initiator (22) and a polymorphogenate (26), as well as polymers made using the catalyst system or process. The polymorphogenate (16, 26) can promote or mimic the formation of different active catalyst complex species (34) having different polymerization rates, i.e. different rates of propagation, chain transfer, or termination, as observed by different polydispersities resulting from the presence of relatively different proportions of the polymorphogenate.Type: GrantFiled: January 12, 2011Date of Patent: May 15, 2012Assignee: ExxonMobil Chemical Patents Inc.Inventors: Timothy D. Shaffer, Michael F. McDonald, David Y. Chung, Robert N. Webb, Deborah J. Davis, Pamela J. Wright