TH33693A - Process for polymerization olefin And catalyst For polymerization olefins - Google Patents

Abstract

Catalyst for polymerization of olefins The catalyst is made up of [A] a titanium catalyst component, a solid containing magnesium, titanium halogen, and an essential electron emitter. [B] The catalyst component is organolum compound. And [C] the catalyst component, which is the electron emitter that contains the body. At least two types of electrons, including electron emitter (1) and electron donor (2), homopolypropylene MFR (a), which is obtained by using an electron emitter (1) with Solid titanium catalyst [A] and components The catalyst, which is the organo-aluminum compound [B], has the following correlation with the homopolypropylene MFR (b), which is obtained using an electron emitter (2) under polymerization. In the case of electron emitters (1) log [MFR (b) / MFR (a)]> 1.5. This catalyst can yield polymers olefin with a wide molecular weight at Also given is a process for polymerization or copolymerization olefin when there is Catalyzed the above reaction.

Claims (3)

Disclaimers (all) that will not appear on the advertisement page: 1. Process for polymerization olfin. Which consists of polymerization or copolymer Rice olfin when a catalyst is in it. The catalyst is made from [A] a titanium catalyst component, which is a solid containing magnesium, titanium, halogen and electron emitters as essential components [B]. Organolum and [C] catalyst components, which are electrons made up of electron emitters. At least two types, consisting of an electron emitter (1) and an electron emitter (2), selected from a group of Contains organic silicon compounds with the formula (I) RnSi (OR \ ') 4-n (I), where each R and R \' group is a hydrocarbon group and 0 <N <4 MFR (a)) log [MFR (b). Under the same polymerization as in the case of electron emitters (1), there is the following relationship. Homopolypropylene organols [B] and MFR (B) were obtained using electron emitters (2), solid titanium catalysts [A] and catalyst components, which are Compound in which homopolypropylene MFR (a) is obtained by using an electron emitter (1) with component> 1.5, the Al atoms in the catalyst component, that is, organoluminum (B) compound. ) Is approximately 5 to 500 moles per mol of Ti atoms in the solid titanium catalyst component (A), whose combined atom of the catalyst component, the electron emitter (C), is approximately 0.001 to 2 moles are calculated as the Si atom per mole of the Al atom in the catalyst component, that is, the compound. The organolumines (B) and which are polymerized at approximately 50 ํ to 180 ํ C and a pressure of 2 to 5 kg / cm2 2. The process of claim 1, which The solid titanium catalyst [A] has an ester that gives it the electron. The catalyst components, which are organoluminium compounds [B], are trialkibels, aluminum, and olifins are olfins with 2 to 5 carbon atoms. Right number 2, where the solid titanium catalyst component [A] contains diisobutyl phthalate as the electron, the catalyst component, that is, the orr compound. Gano aluminum [B] is a triethyl aluminum. Two electrons of the catalytic component. The electron emitters [C] are dicyclopentyl dimethoxy silane and propyl triethoxylane. And olefin is polypropylene. 4. Process according to claim 2, in which the solid titanium catalytic component [A] has diisobutyl phthalate as the electron component. Catalyze the reaction, which is compound ore Gano aluminum [B] is a triethyl aluminum. Two electron emitters of the catalyst component, the electron emitter [C], dicyclopentyl dimethoxylane and vinyl triethoxylane. And olefin is polypropylene. 5. Process according to claim 2. In which the solid titanium catalyst component [A] has diisobutyl phthalate as the electron. Catalyst component, which is an orr compound. Ganolium [B] is triethyl aluminum, the two electrons of the catalyst component, the electron emitter [C] is dicyclopentyl dimethoxylane. And beta-phenethylmethyl Diethoxylane and olefin, that is, propylene 6. Process according to claim 2, in which the solid titanium catalyst component [A] contains diisobutyl phthalate. Is the carrier of the electron. Catalyst components Which is compound Organolumines [B] are thiethyl aluminum, giving two electrons of the catalyst component. The reaction in which [C] electrons are di-t-butyl dimethoxylane and propyl triethoxylane. And that olefin is polypropylene. 7. Treatment according to claim 1, in which the solid titanium catalyst component [A] is made by polymerization, olefin in Initially when this compound was present. 8. Procedure according to claim 7, in which the solid titanium catalyst component [A] had an ester as an electron carrier. The catalyst components, which are organic compounds [B], are trialkyl aluminum, and olifins are olfins with carbon atoms from 2 to 5 atoms. 9. Process according to claim 8, where The solid titanium catalyst component [A] was made by preliminary polymerization of propylene in the presence of this substance. 1 0. Treatment according to claim 9, where the The solid titanium reaction [A] contains diisobutyl. Phthalates give electrons, components, catalysts, which are compounds. Organolumines [B] are triethyl aluminum. Two electrons of the accelerator component The reaction in which the electron giving [C] is dicyclopentyl dimethoxylane. And propyl triethoxy Silane and olfin are propylene 1. 1. Process according to claim 9, in which the solid titanium catalyst component [A] contains diisobutyl phthalate as the electron, the catalyst component, which is the compound. Organolumines [B] are triethyl aluminum. Two electrons of the accelerator component The reaction in which the electrolyte [C] is dicyclopentyl. Dimethoxylane And vinyl triathlon Silane and olfin are propylene 1. 2. Process according to claim 9, in which the solid titanium catalyst component [A] contains diisobutyl. Phthalate is the carrier of electrodes. Catalyst components, which are compounds Organolumines [B] are triethyl aluminum. Two electrons of the accelerator component The reaction in which the electrolytes [C] are dicyclopentyl dimethoxylane and beta-phenethylmethyl diethoxylane and olfin are: Polypropylene 1 3. Process according to claim 9, in which the solid titanium catalyst component [A] contains diisobutyl phthalate as the electron carrier. Catalyst components, which are compounds Organolumines [B] are triethyl aluminum, giving two electrons of the catalyst component. The reaction is electron-giving [C] di-t-butyl dimethoxylane and propyl thiaoxylane. And that olefin is polypropylene.