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Catalyst, preparation method and application for olefin polymerization or copolymerization

A technology for olefin polymerization and copolymerization, which is applied in the field of catalysts, preparation and application for olefin polymerization or copolymerization, and can solve problems such as narrow molecular weight distribution of polymers, poor hydrogen adjustment performance of catalysts, unfavorable polymer development, etc., to achieve hydrogen The effects of excellent tuning performance, improved catalytic performance, high catalytic activity and impurity resistance

Active Publication Date: 2007-05-02
CHINA PETROLEUM & CHEM CORP +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0006] Chinese patent 2004100622909 discloses a solid catalyst component that uses alcohol and binary aromatic carboxylic acid esters as electron donors. The alcohol used also acts as a surface modifier. The catalyst component not only has higher activity, but the resulting propylene polymerization The particle shape of the product is good, and the fine powder is less, but the molecular weight distribution of the polymer is narrow, which is not conducive to the development of different grades of polymers
[0007] However, catalysts for olefin polymerization prepared using the above-mentioned disclosed dibasic aromatic carboxylic acid ester compounds, 1,3-diether compounds, dibasic aliphatic carboxylic acid ester compounds and glycol ester compounds as electron donors There are certain defects in practical applications, such as the use of dibasic aromatic carboxylic acid ester compounds with low catalyst activity, and the molecular weight distribution of the resulting polymer is narrow; although the catalysts with 1,3-diether compounds have high activity , but the molecular weight distribution of the obtained polymer is narrow, which is not conducive to the development of different grades of polymers; the activity of the catalyst using dibasic aliphatic carboxylate compounds is still low; the hydrogen adjustment performance of the catalyst using diol ester compounds is relatively low Difference

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0035] 1. Preparation of magnesium / titanium solids

[0036] In the reaction kettle that has been repeatedly replaced by high-purity nitrogen, 6.5 kg of anhydrous magnesium chloride, 132.7 liters of toluene, 10.8 liters of epichlorohydrin, and 13.5 liters of tributyl phosphate were added in sequence, at a stirring speed of 130 rpm and a temperature of 60 ° C , reacted for 2.5 hours, then added 1.9 liters of ethyl benzoate, continued the reaction for one hour, cooled to -28°C, added 56 liters of titanium tetrachloride dropwise, gradually raised the temperature to 85°C, kept the temperature for one hour, filtered off the mother liquor, and passed the inert The diluent toluene and the organic solvent hexane are washed several times and then dried to obtain the solid A containing magnesium / titanium.

[0037] 2. Preparation of solid titanium catalyst components

[0038] Suspend the above-prepared solid A in toluene, add 1.4 liters of ethanol and 48 liters of titanium tetrachloride ...

Embodiment 2

[0042] 1. Preparation of magnesium / titanium solids

[0043] In the reaction kettle that has been repeatedly replaced by high-purity nitrogen, 6.5 kg of anhydrous magnesium chloride, 132.7 liters of toluene, 10.8 liters of epichlorohydrin, and 13.5 liters of tributyl phosphate were added in sequence, at a stirring speed of 130 rpm and a temperature of 60 ° C , reacted for 2.5 hours, then added 1.89 kg of phthalic anhydride, continued the reaction for one hour, cooled to -28°C, added 56 liters of titanium tetrachloride dropwise, gradually raised the temperature to 85°C, kept the temperature for one hour, filtered off the mother liquor, and The inert diluent toluene and the organic solvent hexane were washed several times and then dried to obtain the solid A containing magnesium / titanium.

[0044] 2. Preparation of solid titanium catalyst components

[0045] Suspend the above-prepared solid A in toluene, add 1.4 liters of ethanol and 48 liters of titanium tetrachloride at -10°C,...

Embodiment 3

[0049] 1. Preparation of magnesium / titanium solids

[0050] In the reaction kettle that has been repeatedly replaced by high-purity nitrogen, 4.8 grams of anhydrous magnesium chloride, 93 milliliters of toluene, 7.8 milliliters of epichlorohydrin, and 10.0 milliliters of tributyl phosphate were added in sequence, at a stirring speed of 450 rpm and a temperature of 60 ° C , react for 2 hours, add 1.5 ml of butyl benzoate, continue to react for one hour, cool down to -28°C, add 56 ml of titanium tetrachloride dropwise, gradually raise the temperature to 85°C, keep the temperature for one hour, filter off the mother liquor, and dilute inertly Agent toluene and organic solvent hexane several times and then dried to obtain magnesium / titanium-containing solid A.

[0051] 2. Preparation of solid titanium catalyst components

[0052] Suspend the above-prepared solid A in toluene, add 1.0 ml of ethanol and 48 ml of titanium tetrachloride at -10°C, add 1.0 ml of di-n-butyl phthalate (D...

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Abstract

This invention relates to a catalyst system which is used for alkenes polymerizing or copolymerization, it includes solid catalyst composition A that contains titanium and organic Aluminum compound B, silicoorganic compound C, in the composing process of catalyst composition A, use aldyl ester of aryl group mon-carboxylic acid and aldyl ester of fatty series or multielement carboxylic acid of aryl group for reasonable combination, among them aldyl ester of aryl group mon-carboxylic can play a role of assisting separating agent, it is useful to separate catalyst particle; Meanwhile it is used as electron donor, it also can load on the surface of catalytic agent together with compound of multielement carboxylic esters, improve the surface structure of catalytic agent, thus improve the catalyzing function of catalytic agent. This catalytic agent that is used for propylene polymerizing has high catalytic activity and anti- impurity function, particle appearance of catalytic agent is good, particles distribute narrowly, hydro-adjusting function of catalytic agent is good, it is useful for many polymerizing technology such as seriflux method, noumenon method and gas method, molecular weight distribution of polymer is narrow, particle appearance of polymer is good, fine grits is little; Its fine anti-impurity function can effectively reduce production cost.

Description

technical field [0001] The present invention relates to a catalyst component for olefin polymerization or copolymerization, its preparation method, and its application in olefin polymerization or copolymerization. Background technique [0002] Solid titanium catalyst components based on magnesium, titanium, halogen and electron donors for CH 2 = CHR olefin polymerization, especially in the polymerization of alpha olefins with 3 or more carbon atoms, polymers with higher yield and higher stereoregularity can be obtained, wherein the electron donor compound is an essential component of the catalyst One of the indispensable ingredients, and with the development of internal electron donor compounds, polyolefin catalysts are constantly updated. At present, a large number of electron donor compounds have been disclosed, such as polycarboxylic acid, monobasic or polycarboxylic acid ester, acid anhydride, ketone, monoether or polyether, alcohol, amine, etc. and their derivatives, a...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C08F10/00C08F4/614
Inventor 王志武谭忠郭正阳张凯寇鹏杜宏斌严立安王宇肖军徐慧娟刘萃莲郑煊杨岭徐秀东
Owner CHINA PETROLEUM & CHEM CORP
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