TH3752B - Process for producing impact resistant polypropylene copolymer - Google Patents

Abstract

Process for products containing ethylene/propylene copolymers in the polypropylene matrix. homopolymer or copolymer consisting of the following steps: (a) propylene or propylene is administered with at least alpha-olefin; Type I containing 2 to 8 carbon atoms and hydrogen, with alpha-olifin in a ratio of approximately 0.01 to approximately 0.06 moles per mol of propylene, and a hydrogen content of approximately 0.001 to approximately 0.06 mol. 0.45 mol/mol of polypropylene and Alpha-olifin combined, exposed to a catalyst containing (i) a catalyst precursor including titanium, magnesium, chlorine and electrons. a doner type, (ii) a hydrocarbyl aluminum co-catalyst, and (iii) a selective regulator unlike doner electrons, in the first reactor in such a way that A homopolymer mixture of propylene or copolyte has been produced. The morph of propylene and alpha-olefin is mixed with the active catalyst (b) through a mixture of class (a) into the second reactor and (c) the following substances are added: into the second reactor. (i) Ethylene and propylene are sufficient to obtain ethylene. Lean/propylene copolymer content 20% to approximately 45% by weight of the aforementioned ethylene and propylene products added to Approximately 10 to approx. 100 mol of ethylene to mol of propylene and (ii) hydrogen in a molar ratio of approx. 0.1 to approx. 1.0 mol of hydrogen per mol of ethylene and po. Combined ropylene and (d) cause the copolymerization of ethylene and propylene in The second reactor is in such a way that product birth

Claims (2)

1.Processes for products including Ethylene / propylene The copolymer is mixed in a mackricks of propylene, omopolymer, or copolymer. This consists of the following steps: (a) Give at least propylene or propylene with alpha-olefin. Type I had 2 to 8 carbon and hydrogen, which had an alpha-olefin ratio of 0.01 to approximately 0.06 mol per polypropylene, and hydrogen in a ratio of approximately 0.001 to approximately. 0.45 moles per mole of polypropylene and Alpha-olifin combined, exposed to a catalyst composed of (i) catalyst precursors, which include titanium, magnesium, chlorine and electrons. Doner, (ii) co-catalyst, hydrocarbuminum, and (iii) selective regulator, unlike electron doner, in first reagent in such a way that A homopolymer mixtures of propylene or copolymer have been produced. The mo of propylene with alpha-oleifin was mixed with an agile catalyst (b) through a layer mixture (a) to the second reagent and (c) added to the following. In the second reactor (i) ethylene and propylene are sufficient to obtain ethylene. Polyethylene / propylene copolymer content of 20% to approximately 45% by weight of the said ethylene and propylene product to A mole ratio of approximately 10 to approximately 100 moles of ethylene to mole of propylene and (ii) hydrogen in a mole ratio of approximately 0.1 to approximately 1.0 moles of hydrogen per mole of ethylene and poly. Propylene combined and (d) forms the copolymerization of ethylene and propylene in The second reactor is in such a way that it will make Birth of the product 2. Process as defined in Clause 1, which contains alpha-O The lifin was present in the first reagent at a ratio of approximately 0.015 to approximately 0.04 mol of alpha-olifin per mole of polypropylene. 3. The process as defined in claim 1 contains hydrogen. Were in the first reagent at a ratio of approximately 0.004 to approximately 0.1 mol of hydrogen per mole of propylene and Alpha-olifin combined 4. the processes defined in claim 2, which contain alpha-o Lifin is ethylene 5. A process as defined in claim 1, in which sufficient amounts of ethylene and propylene are added to the reactor. Second, to obtain approximately 25 to approximately 30 percent of ethylene / propylene copolymer by weight. 6. Process, as defined in claim 1, in which hydrogen is added to the second reactor in the ratio. Approximately 0.1 to approximately 0.4 moles of hydrogen per mole of ethylene and propylene 7. The process as defined in claim 1, where the electron Doner and selective control agents were selected from a group consisting of ether, mono- or polycarboxylic acid ester, ketone, phenol, amine. , Amine, imine, nitrile, silane, phosphine, phosphate, stilamine, arzine, phosphorid and alcohol. Alet 8. The process defined in claim 1, where electrons Doner is ethyl benzoate and the selective control substance is para-ethoxyl benzoate 9. The process as defined in claim 1, where the electron Doner is a polycarboxylic acid ester which has an S group. Two co-flannar types are connected to the carbon atoms in it. Adhesives and selective regulators are silicon compounds with Silicon-Oxygen-Carbon 1 1.1 1.The product is produced through a process as defined in Clause 1 1. 2. Products are produced by the process defined in Clause 9 (12 Clause, 3 Pages, 0 Fig).