Loaded non-metallocene catalyst, its preparation method and application
A non-metallocene and catalyst technology, applied in the field of non-metallocene catalysts, can solve the problems of low catalytic activity, fragility, and poor polymer morphology, and achieve the effect of simple preparation method
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no. 1 approach
[0165] In the context of the present invention, unless otherwise clearly defined, or the meaning is beyond the scope of understanding of those skilled in the art, hydrocarbon or hydrocarbon derivative groups with more than 3 carbon atoms (such as propyl, propoxy, butyl , butane, butene, butenyl, hexane, etc.) all have the same meaning as when the prefix "positive" is not prefixed. For example, propyl is generally understood as n-propyl and butyl is generally understood as n-butyl.
[0166] The invention relates to a preparation method of a supported non-metallocene catalyst, comprising the following steps: contacting a porous support, a Grignard reagent, a halogenating reagent and a non-metallocene complex optionally subjected to heat activation treatment in the presence of a solvent, The step of obtaining the supported non-metallocene catalyst.
[0167] According to the present invention, the porous carrier, Grignard reagent, halogenating reagent and non-metallocene complex ...
Embodiment 1
[0301] The Grignard reagent adopts methylmagnesium chloride (MeMgCl), the solvent for dissolving the Grignard reagent adopts tetrahydrofuran, the halogenated reagent adopts chlorobutane, and the porous carrier adopts silica, that is, silica gel, and the model is ES757 of Ineos Company, which is non-metallocene The complex adopts the structure compound of.
[0302] Firstly, the silica gel was continuously fired at 600° C. under nitrogen atmosphere for 4 hours to thermally activate it.
[0303] Weigh 3 g of the non-metallocene complex and dissolve it in a halogenated reagent at room temperature to prepare a homogeneous solution for use. Add heat-activated silica gel to the Grignard reagent solution at room temperature, and stir at room temperature to form a uniform slurry. Add the mixed solution of the non-metallocene complex and the halogenating reagent dropwise to the homogeneous slurry at room temperature, and the dropping time is 30 minutes. After the dropwise addition w...
Embodiment 2
[0307] The Grignard reagent uses ethylmagnesium chloride (EtMgCl), the solvent used to dissolve the Grignard reagent is ether, the halogenated reagent uses ethyl chloride, and the non-metallocene complex uses The porous carrier was changed to 955 type silica gel of Grace Company, and it was continuously calcined at 400° C. for 8 hours under a nitrogen atmosphere to be thermally activated.
[0308] Weigh 6.4 g of the non-metallocene complex, add it into the Grignard reagent solution at room temperature, and then add the heat-activated porous carrier at room temperature to prepare a slurry. Weigh the halogenated reagent, and dissolve it in the solvent for dissolving the Grignard reagent (accounting for half of the total amount) at normal temperature to prepare a solution. The halogenated reagent solution was added dropwise to the aforementioned slurry at room temperature, and the dropping time was 30 minutes. After the dropwise addition was completed, the mixture was stirred a...
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