0000000000178670
AUTHOR
Maria Nowakowska
A New Supported Zirconocene Catalyst for Ethylene Polymerization
Metallocene catalysts enable the structure of polymers to be tailored in a way which has not been reached before. However, they are more active than the conventional Ziegler — Natta catalysts only as homogeneous metalocene systems, a fact that has essentially restricted their use to industrial processes producing polymers in solution. Modern polymerization processes are solvent free slurry (with liquid monomer) or gas phase processes. To use metallocene catalysts in these modern processes, it is necessary to convert them to heterogeneous catalysts [1, 2]. However, problems have appeared chiefly concerning the activity of the supported catalysts, because heterogeneous metallocene catalysts a…
Polymerization of ethylene in the presence of organometallic complexes formed by chloroisopropoxytitanium compounds and sesquiethylchloroaluminium
The catalytic activity of organometallic complexes obtained from chloroisopropoxytitanium compounds and sesquiethylchloroaluminium has been studied. The complexes are active as catalysts for polymerization of ethylene, living high molecular weight product with high output. It is found that the molar ratio of catalyst components affects the output and molecular weight of polyethylene. The optimum molar ratiofor three catalytic systems is given.
The roles for a Lewis base and MgCl2 in third-generation Ziegler-Natta catalysts
Activity of a titanium catalyst supported on a bimetallic magnesium-aluminium system, involving a Lewis base [MgCl2(THF) 2 /Al(C 2 H 5 ) 2 Cl], was studied in ethylene polymerization, and the effect of the catalyst composition on the properties of the final polymer produced was investigated. Analysis and discussion of the findings covering also some part of the kinetic study, resulted in defining the roles for MgCl 2 and a Lewis base in the third-generation Ziegler-Natta catalysts. MgCl 2 forms a bimetallic complex with an organoaluminium compound, which involves also a Lewis base. Its reaction with TiCl 4 yields a very active catalyst wherein the Mg: Ti molar ratio is close to 1. This mean…
Magnesium chloride modified with organoaluminium compounds as a support of the zirconocene catalyst for ethylene polymerisation
Abstract This work describes the influence of the modification of the MgCl2(THF)2 and MgCl2 magnesium supports with the AlEt2Cl, MAO, AlEt3, AlMe3, and AlEt2Cl alkylaluminium compounds on heterogenisation of the bis(cyclopentadienyl) zirconium(IV) dichloride Cp2ZrCl2 catalyst. It was found that only the MgCl2(THF)2 support modified with AlEt2Cl gave the heterogeneous catalyst. On the contrary, application of a magnesium carrier modified by AlEt3, AlMe3, and MAO compounds only results in a homogeneous zirconocene catalyst.
Synthesis of Ultra-High-Molecular-Weight Polyethylene
The catalytic activity of organometallic Ti-Al complexes with donor ligands in the low-pressure polymerization of ethylene was studied. These complexes were obtained by the reaction of ethylaluminium compounds like AlEt2Cl or Al2Et3Cl3 and titanium compound of the type Ti(OR)nCl4-n (where: R = C2—C10 alkyl, C6H5, C6H4X; X — m-CH3, p-CH3, m-OCH3, p-OCH3, m-Cl, p-Cl, p-Br; n = 1—4). The optimum conditions for the synthesis of these compounds, as well as their physico-chemical properties were studied by means of EPR and polarographic methods. The effect of the type and number of OR ligands in a catalytic system on the yield of polyethylene and on its properties was examined. Ti-Al catalysts wi…
Heterogeneous zirconocene catalyst on magnesium support MgCl2(THF)2 modified by AlEt2Cl for ethylene polymerisation
Abstract The heterogeneous bis(cyclopentadienyl)zirconium(IV) dichloride catalyst of the composition MgCl2(THF)/(AlEt2Cl)0.34/(Cp2ZrCl2)0.01 as determined by FTIR, XRD, and AAS analyses was synthesised and, after activation by MAO, applied for ethylene polymerisation. The catalyst turned out to be stable and more active than those magnesium supported catalysts already known from the literature. The polyethylene produced has a relatively high molecular weight (Mw > 200,000 g/mol), a narrow and monomodal molecular weight distribution (MWD = 2.4), a bulk density of about 180 g/dm3, and monomodal particle size distribution. Application of a ternary Al(i-Bu)3/MAO/B(C6F5)3 activator decreased the…