205results about How to "The polymerization process is simple" patented technology

The invention provides a slump loss resistant type gather carboxylate water-reducing agent, which is a polymer of prenyl polyoxyethylene ether or prenyl polyoxyethylene propenyl ether or methyl allyl polyoxyethylene ether or methallyl polyoxyethylene propenyl ether (a macro-monomer A) and unsaturated carboxylic acid (a micro-monomer B) and an unsaturated carboxylic acid derivative (a micro-monomer C), belonging to the field of concrete admixtures. A synthetic method is as follows: the water-reducing agent is prepared by initiating the macro-monomer A, the micro-monomer B and the micro-monomer C through an oxidative-reductive initiating system by taking water as a solvent at lower temperature, and carrying out copolymerization under the action of a chain transfer agent. The water-reducing agent overcomes the disadvantages of being poor in slump loss resistance, long in setting time and the like of the water-reducing agent synthesized by allyl polyoxyethylene ether and has the advantages of being high in slump loss resistance, good for being suitable to different cements and low in influence on concrete setting time.

The invention relates to polymerization of 1-butene, in particular to a spherical catalyst of polybutylene-1. The catalyst consists of a carrier, an active component and a modifier, wherein the active component is titanium tetrachloride, the carrier is a magnesium chloride spherical carrier and the modifier is an electron donor compound; and the catalyst comprises the major components in percentage by mass of: 1.1-4.5% of Ti and 0.15-12.37% of electron donors. The spherical catalyst suitable for butane-1 polymerization solves the problems that the activity of the general catalyst is low, the normality of polymer is difficult to control, and the molecular weight of the polymer and the molecular weight distribution are difficult to control. The obtained polybutylene polymer has very high steric regularity, the normality of polybutylene is as high as 99%, the crystallinity of the polybutylene-1 polymer is greater than 60% and the fusion point is 130.5 DEG C. The invention can simplify the polymerizing process and save the production cost.

The invention provides a fluorine-containing waterproofing agent for textiles and a method for preparing the same, belonging to the chemical material field. A self-emulsifying fluorine-containing acrylate block copolymer is synthesized by means of ARGETATRP (Activators Regenerated by Electron Transfer for Atom Transfer Radical Polymerization); and the self-emulsifying fluorine-containing acrylate block copolymer can be directly used after being emulsified and diluted. The self-emulsifying fluorine-containing acrylate block copolymer prepared by the method has excellent pH stability, chemical stability, diluting stability and storage stability; and the fluorine-containing structure units are distributed in form of blocks on the polymeric chain of the fluorine-containing acrylate block copolymer so that the fluorine-containing chain segments can be effectively utilized. Compared with a random fluorocarbon resin, the fluorine-containing acrylate block copolymer is capable of achieving the same performance and the usable amount of fluorine-containing monomers is very low. Moreover, textiles finished by the fluorine-containing waterproofing agent have excellent waterproofness; and compared with the similar products, the fluorine efficiency is improved and the cost is reduced.

The invention relates to polyacrylate. Polyacrylate is synthesized from raw materials in percentage by mass as follows: 10%-30% of a hard monomer, 15%-40% of a soft monomer, 1%-5% of a functional monomer, 0.5%-2% of a special monomer and 40%-50% of a solvent, wherein the hard monomer comprises one or more of methyl acrylate, methyl methacrylate, vinyl acetate, acrylonitrile and isobornyl methacrylate; the soft monomer comprises one or more of ethyl acrylate, n-butyl acrylate, 2-ethylhexyl acrylate and n-propyl acrylate; the functional monomer comprises one or more of hydroxyethyl acrylate, acrylic acid, methacrylic acid, hydroxypropyl acrylate and 2-hydroxyethyl methacrylate; the special monomer comprises one or more of methacrylamido ethyl ethylene urea, hydroxyethyl methacrylate phosphate and glycidyl methacrylate. A pressure-sensitive adhesive has good high-temperature-resistant adhesive property, does no squeeze out, has no residue, has low cost and can be applied to masking tapesused in capacitor taping in the electronics industry as well as certain high-temperature-resistant adhesive tapes.

The invention provides aromatic polyester polyol for improving compatibility of a hydrocarbon blowing agent in a hard polyurethane foam composite material. The aromatic polyester polyol is characterized in that: the aromatic polyester polyol chemically modified by fatty acid has the acid ester of less than 3.0mgKOH/g, and the hydroxyl value of 30-800mgKOH/g. Meanwhile, the invention provides a method for preparing the aromatic polyester polyol for improving the compatibility of the hydrocarbon blowing agent in the hard polyurethane foam composite material. The method is convenient to operate,and the product has stable properties.

The invention relates to caprolactam hydrolyzed polymer fibres and a spinning method thereof. The spinning method comprises the following steps: preparing a polyamide 6 prepolymer at low temperature, pre-controlling the content of oligomers in a melt, carrying out auxiliary end-blocking by binary acid to reduce the content of end amino groups in a system, then carrying out end-blocking by ethylene glycol, after that, carrying out chain growth by means of gylcol ester removal exchange, wherein in the obtained product, the content of extractable matters is not greater than 2wt%, and the content of cyclic dimers is not greater than 0.3wt%; then, carrying out direct melt-spinning formation after the condensation polymerization reaction is concluded. The spinning method disclosed by the invention is simple in process, and capable of reducing energy consumption while increasing the utilization rate of caprolactam; the obtained melt is capable of being used for direct melt-spinning, easy in realizing high-capacity large-scale production, and capable of being applied to the fields of garment fibres, industrial silk, engineering plastics and the like.

The present invention relates to polymers and to the use thereof in the form of active electrode material or in an electrode slurry as electrical charge storage means, the electrical charge storage means especially being secondary batteries. These secondary batteries are especially notable for high cell voltages, and simple and scalable processing and production methods (for example by means of screen printing).

The present invention relates to polymers and to the use thereof in the form of active electrode material or in an electrode slurry as electrical charge storage means, the electrical charge storage means especially being secondary batteries. The secondary batteries are especially notable for high cell voltages, a small drop in capacity even on undergoing several charging and discharging cycles, and simple and scalable processing and production methods (for example by means of screen printing).

The invention belongs to the field of high polymer materials and particularly relates to anorganosilicone copolyester. The organosilicone copolyester is formed by copolymerizing aromatic dicarboxylic acid, aliphatics dihydric alcohol and organosilicone oligomer, the condensed structural formula of the organosilicone oligomer is as shown in the specifcation, wherein in the formula, R1, R2, R3, R4, R and R' are respectively alkyl of C1-C10 or alkoxyl of C2-C10; R'' is hydroxyl, carboxyl or amino, preferably hydroxyl; Rf is hydroxyl; and the value of n ranges from 1 to 106. The organosilicone copolyester is higher in molecular weight, has excellent thermal stability, mechanical property and organic solvent resistance, and is beneficial to the forming of fibers.

The invention relates to a polyester-modified acrylate resin aqueous paint. The paint is prepared from components of, by weight: 75 to 95% of an acrylate resin solution, 5 to 15% of a filing material, 0 to 5% of a leveling agent, 0 to 5% of a solvent, 0 to 2% of a dispersant, and 0 to 5% of a thickening agent. The invention provides an aqueous paint with good glossiness, good hardness and good impact strength. The invention also provides a preparation method of the paint. The aqueous paint has advantages of simple preparation method, common raw materials, low cost, and suitability for industrialized productions.

The invention relates to a method for carrying out living polymerization by directly using an industrial-grade monomer, in particular to a method for preparing polymethyl methacrylate by carrying out atom transfer radical polymerization (AGET ATRP) reaction generating a catalyst through electron transfer by directly using the monomer, i.e. industrial-grade methyl methacrylate containing a polymerization inhibitor, belonging to the field of organic polymerization. The method comprises the following steps of: adding the monomer, an initiator, the catalyst and a coordinating agent according to the mole ratio of monomer:initiator:catalyst:coordinating agent=(100-1000):1:(0.05-1):(0.15-3) by taking the industrial-grade methyl methacrylate as the monomer; and carrying out the atom transfer radical polymerization (AGET ATRP) reaction generating the catalyst through the electron transfer to synthesize a high molecular polymer under the catalysis of ferric salt. The invention decreases the steps of eliminating the polymerization inhibitor by carrying out the AGET ATRP polymerization by directly using the industrial-grade methyl methacrylate containing the polymerization inhibitor, simplifies the polymerization process and greatly reduces the production cost.

The invention provides a trans-polymer dispersed liquid crystal material, a trans-polymer dispersed liquid crystal light valve and application of the light valve. The trans-polymer dispersed liquid crystal material comprises the following components: a nematic-phase liquid crystal composition with negative dielectric anisotropy, ultraviolet-curable or thermal-curable glue and a self-alignment material. The trans-polymer dispersed liquid crystal light valve comprises a first base layer, a first conductive layer, a liquid crystal layer, a second conductive layer and a second base layer which arearranged from top to bottom in sequence, and the liquid crystal layer contains the trans-polymer dispersed liquid crystal material. The trans-polymer dispersed liquid crystal material has the advantages of being good in stability, high in steady-state transmittance, large in fog-state haze, excellent in mechanical performance and high in anti-impact performance when applied in an optical switching device.

The invention discloses a preparation method of polyisobutene with low molecular weight and high activity. The method comprises the following steps of: continuously adding a raw material with isobutylene content of 40-90wt% into a polymer reactor, and simultaneously adding a catalyst A and a catalyst B from the two inlets of the polymer reactor to perform polymerization reaction; terminating the obtained polymer material by a terminator; performing tertiary countercurrent washing and then removing the unreacted C4 component by a climbing-film evaporator; further removing the unreacted C4 component in a falling-film evaporator; and finally removing low polymer through vacuum distillation to obtain high-activity polyisobutene with number-average molecular weight of 500-5,000, wherein the content of alpha-terminal double bonds is greater than or equal to 80% by mole, the maximum isobutylene conversion rate can reach 85%, and the molecular weight distribution is narrow. The method disclosed by the invention is simple and reasonable in polymerization technology; and due to the mode of continuously adding catalysts at different positions, the reaction conditions are relatively mild, the polymerization occurrence possibility is low, the reaction conditions are easy to control, and the quality stability is good.

The invention discloses a preparation method of polycaprolactone. The method comprises the following steps: mixing a catalyst, an organic solvent and caprolactone; carrying out ring-opening polymerization in the presence of anhydrous and anaerobic inert gases; treating a reactant to obtain polycaprolactone after reacting, wherein the catalyst is an amido anilino group lithium compound. With the amido anilino group lithium compound as a catalyst, the preparation method is good in reaction controllability, mild in condition, high in reaction rate and high in catalytic activity; polymerization reaction can be carried out without adding an alcohol-assisted catalyst; and the obtained polycaprolactone is controllable in molecular weight, high in productivity and few in metal residues. In addition, the polymerization reaction process is simple; a general solution polymerization method can be adopted; through control on polymerization reaction conditions, the molecular weight of the polymer can be regulated and controlled; and the obtained polymer is narrow in molecular weight distribution, has excellent physical and chemical characteristics, and can meet the requirements of the market.

The invention discloses a polysiloxane with a side chain containing vinyl and quaternary ammonium salt and a synthesis method of the polysiloxane. The polysiloxane with the side chain containing the vinyl and the quaternary ammonium salt is prepared by carrying out quaternization reaction on a halohydrocarbylalkoxysilane monomer and a tertiary amine compound to obtain a quaternary ammonium salt-containing alkoxysilane monomer; and then carrying out equilibrium polymerization on the quaternary ammonium salt-containing alkoxysilane monomer, vinyl alkoxysilane monomer and hydroxyl-terminated polydimethylsiloxane. The invention also discloses application of the polysiloxane with the side chain containing the vinyl and the quaternary ammonium salt as raw rubber to prepare antibacterial siliconerubber through hydrosilylation reaction, quaternary ammonium salt antibacterial group is introduced into the molecular structure of the raw rubber of the silicone rubber, so that an antibacterial agent is uniformly distributed in a matrix, and the obtained silicone rubber is durable in antibacterial property and high in safety. A new field is developed for the application of the organosilicon polymer quaternary ammonium salt, and a brand-new idea is provided for a new preparation technology of antibacterial materials.