RU2013134441A - CATALYTIC SYSTEM AND METHOD FOR PRODUCING REACTOR POWDER OF SUPER HIGH-MOLECULAR POLYETHYLENE - Google Patents

Abstract

1. Catalytic system for the polymerization of ethylene based on substituted bis (phenoxyimine) titanium halide complexes of the general structure IV, activated by methylaluminoxane, to obtain a reactor powder of ultra-high molecular weight polyethylene with improved morphology, capable of being processed into high-strength and ultra-high modulus fibers and tapes by cold forming, where the complex has the following cold forming structure: where IR = tert-butyl ethyl phenyl; R = HII; R = ethyl phenyl; R = HIII; R = ethyl phenyl; R = MeIV R = isobornyl; R = HB R = tert-butyl; R = H2. The catalytic system according to claim 1, characterized in that in the bis (phenoxyimine) complex, the pentafluorophenyl group is bound to imine nitrogen, and in the phenoxy group in the ortho position is tert-butyl ethyl phenyl, and in the para position is hydrogen. The catalytic system according to claim 1, characterized in that in the bis (phenoxyimine) complex, the pentafluorophenyl group is bound to imine nitrogen, and in the phenoxy group in the ortho position is ethyl phenyl, and in the para position is hydrogen. The catalytic system according to claim 1, characterized in that in the bis (phenoxyimine) complex, the pentafluorophenyl group is bound to imine nitrogen, and in the phenoxy group in the ortho position is ethyl phenyl, and in the para position is methyl. The catalytic system according to claim 1, characterized in that in the bis (phenoxyimine) complexes the pentafluorophenyl group is bound to imine nitrogen, and in the phenoxy group in the ortho position is isobornyl and in the para position hydrogen. A method of producing a reactor powder of ultra-high molecular weight polyethylene by the method of catalytic polymerization, capable of processing by cold molding, characterized in that as a catalytic

Claims (8)

1. Catalytic system for the polymerization of ethylene based on substituted bis (phenoxyimine) titanium halide complexes of the general structure IV, activated by methylaluminoxane, to obtain a reactor powder of ultra-high molecular weight polyethylene with improved morphology, capable of being processed into high-strength and ultra-high modulus fibers and tapes by cold forming, where the complex has the following cold forming structure:

where IR ¹ = tert-butyl ethyl phenyl; R ² = N II R ¹ = ethyl phenyl; R ² = N III R ¹ = ethyl phenyl; R ² = Me IV R ¹ = isobornyl; R ² = N VR ¹ = tert-butyl; R ² = N 2. The catalytic system according to claim 1, characterized in that in the bis (phenoxyimine) complex, the pentafluorophenyl group is bound to imine nitrogen, and in the phenoxy group in the ortho position is tert-butyl ethyl phenyl, and in the para position is hydrogen. 3. The catalytic system according to claim 1, characterized in that in the bis (phenoxyimine) complex, the pentafluorophenyl group is bound to imine nitrogen, and in the phenoxy group in the ortho position is ethyl phenyl, and in the para position is hydrogen. 4. The catalytic system according to claim 1, characterized in that in the bis (phenoxyimine) complex, the pentafluorophenyl group is bound to imine nitrogen, and in the phenoxy group in the ortho position is ethyl phenyl, and in the para position is methyl. 5. The catalytic system according to claim 1, characterized in that in the bis (phenoxyimine) complexes, the pentafluorophenyl group is bound to imine nitrogen, and in the phenoxy group in the ortho position is isobornyl, and in the para position is hydrogen. 6. A method of producing a reactor powder of ultra-high molecular weight polyethylene by the method of catalytic polymerization, capable of processing by cold molding, characterized in that the catalyst system according to any one of claims 1 to 5 is used as a catalytic system. 7. The method according to claim 6, characterized in that the polymerization process is carried out at a constant temperature in the range of 20-50 ° C and a constant ethylene pressure of 0.2-0.4 MPa. 8. The method of cold forming a reactor powder of ultra-high molecular weight polyethylene obtained by polymerization of ethylene in the presence of a catalytic system having the following structure:

where IR ¹ = tert-butyl ethyl phenyl; R ² = N II R ¹ = ethyl phenyl; R ² = N III R ¹ = ethyl phenyl; R ² = Me IV R ¹ = isobornyl; R ² = N VR ¹ = tert-butyl; R ² = N