TH6327B - Procedure for preparing a randomized multigrain polymer. - Google Patents

Abstract

The method for the union polymerization of at least two co-monomers, propylene and ethylene, consists of co-polymerization of the monomers in the core cycle. reaction area under conditions of polymerization Exposure to a catalyst system consisting of (i) a solid catalyst precursor. This includes magnesium, titanium, halogens i.e. chlorine, bromine or iodine, or a mixture of those, and polycarboxylic acid esters. with two ester groups in the same plane attached to adjacent carbon atoms (ii) co-hydrocarbyl aluminum catalysts and (iii) silicon compounds with si groups. Ligon-oxygen-carbon at least one group which is proportional to the atoms of aluminum The molar ratio of aluminum to silicon compounds ranges from approximately 50°C to approximately 150°C. The molar ratio of aluminum to silicon compounds is approximately 0.5. Up to about 100, the polypropylene sub-pressure ranges from about 50 to about 600 pounds per square inch, and the ethylene sub-pressure ranges from about 0.25 to about 25 pounds per square inch.

Claims (3)

1.Process for producing randomly multiplied polymers consisting of propylene and ethylene application. And another alternative is alpha-olefin. One or more larger monomers in the gas phase in the reaction region. Under polymerization conditions, it is exposed to a catalyst system containing (i) a solid catalyst substrate. This includes magnesium, titanium, halogens, which is chlorine, bromine or iodine, or a mixture of them, and polycarboxylic acid esters. With two ester groups in the same plane connected to the next carbon atoms, (ii) common catalysts, aluminum hydrocarbons, and (iii) silicon compounds with silicon groups. - at least one group of oxygen-carbon The atomic proportions of aluminum to titanium range from approximately 5 to approximately 300, with the temperature at the reaction site ranging from approximately 50 ° C to approximately 150 ° C, the mole ratio of aluminum to silicon compounds. In the range of approximately 0.5 to approximately 100, polypropylene sub-pressures range from approximately 50 to approximately 600 pounds per inch. And the ethylene sub-pressure ranges from approximately 0.25 to approximately 25 pounds per square inch. 2. The process as defined in claim No. 1, where the molar ratio of aluminum to silicon compounds exists. In the range of approximately 1 to approximately 25. 3. Process as defined in claim 1, where the temperature at the reaction site ranges from approximately 60 ° C to approximately 90 ° C. 4. Process as defined in Clause 1. Claim No. 1, where the propylene sub-pressure ranges from approximately 150 to approximately 500 psi. 5. Process as defined in claim No. 1, where the ethylene sub-pressure ranges from approximately 150 to 500 psi. It ranges from approximately 1 to approximately 15 pounds per square inch. 6. The process as defined in claim No. 1, where the process is continuous and the reaction area is fluidized bake. 7. The process, as defined in claim No. 1, in which the solid catalyst precursors are obtained by halogenating magnesium compounds with the formula MgRR1, where R is the alkoxide group. Or aeryloxide, and R1 is R or halogens with halogensetetravalent titanium compounds with at least two halogen atoms. In the state of halohydrocarbons And the esters of polycarboxylic acid. Where there are two ester groups in the same plane attached to the adjacent carbon 8. Process as defined in Clause 1, in which the catalyst joins the hydrocarbium, aluminum is Triene. Alkyl aluminum 9. The process as defined in claim 1, where silicon compounds with the formula RaSiYbXc, where R is hydrocarbon radicals with 1 to 20 carbon atoms, Y is? OR or? OCOR and X is hydrogen, bromine or iodine, R and Y each can be the same or different, a is an integer from 0 to 3, b is an integer from 1 to 4, c is 0 or 1, and a + b + c. = 4 1 0. The process as defined in claim 8, in which the magnesium compound is magnesian diethoxide, the halogenated tetravalent titanium compound is titanium. Tetrachloride, halohydrocarbons is chlorobenzene, and polycarboxylic acid is diisobutyl phalate 1. 1. The process as defined in claim 1, where the silicon compound is diphenyl dimethoxilane 1. 2. Process as defined in the Clause No. 1, where the silicon compound is n-propyl trimethoxylane 1. 3. Process as defined in the Clause No. 1 of which silicon compounds are Di-tert-butyl dimethoxylane