Abstract: An olefin polymerization supported catalyst comprising the supported reaction product of at least one metallocene of a metal of Group IVB, VB, and VIB of the Periodic Table, a non-metallocene transition metal containing compound of a Group IVB, VB, or VIB metal and an alumoxane, said reaction product formed in the presence of the support. The supported product is highly useful for the polymerization of olefins especially ethylene and especially for the copolymerization of ethylene and other mono and diolefins.
Abstract: This invention relates to a process for polymerizing olefin using a supported metallocene alumoxane catalyst, which can be used in slurry or liquid phase polymerization of olefins. The invention relates to the use of silica gel containing from about 10 to about 50% by weight adsorbed water as the catalyst support material. It has been found that such silica gel may be safely added to an aluminum trialkyl solution to form by direct reaction with the adsorbed water content of the silica gel catalyst support material the alumoxane component of the catalyst system. An alumoxane coated silica gel was formed to which a metallocene may be added. The resulting material can either be used in this slurry state for slurry polymerization or can be used for liquid phase polymerization.
Abstract: An olefin polymerization catalyst comprising (a) a supported transition metal containing component comprising the support treated with at least one metallocene and at least one non-metallocene transition metal compound, and a cocatalyst comprising an alumoxane and an organometallic compound of a metal of Groups IA, IIA, IIB, or IIIA of the Periodic Table.
Abstract: A process and catalyst have been developed for hydrotreating halogen containing olefinic feedstock including resins. The process and catalyst dehalogenates both saturated and unsaturated feedstock. The catalyst is not deactivated by prolonged exposure to a halogen. The composition of the catalyst includes oxides from Group VIIIA, tungsten oxide or molybdenum oxide and a basic promoter oxide from Group IA, Group IIA, Lanthanides and Actinides.
Abstract: The invention is a catalyst system including a Group IV B transition metal component and an alumoxane component which may be employed to polymerize olefins to produce a high molecular weight polymer.
Abstract: This invention relates to a process for preparing a supported metallocene alumoxane catalyst for use in the slurry or liquid phase polymerization of olefins. The invention particularly relates to the use of silica gel containing from about 10 to about 50 percent by weight adsorbed water as the catalyst support material. It has been found that such silica gel may be safely added to an aluminum trialkyl solution to form by direct reaction with the adsorbed water content of the silica gel catalyst support material the alumoxane component of the catalyst system. An alumoxane coated silica gel is formed to which a metallocene may be added. The resulting material can either be used in this slurry state for slurry polymerization or can be used for liquid phase polymerization of olefins.
Abstract: The invention is a catalyst system including a Group IVB, VB or VIB transition metal hydrocarbyloxide component and an alumoxane component which may be employed in liquid, slurry or bulk phase reactors to polymerize ethylene and .alpha.-olefins to produce a high molecular weight, narrow molecular weight distribution homo- and co-polymer.
Abstract: A meltblowing die is provided with means for discharging crossflow air onto meltblown filaments to disrupt their shape and flow pattern between the die and the collector. The disruption enhances drag forces imparted by the primary meltblowing air and results in smaller diameter filaments.
Type:
Grant
Filed:
October 11, 1990
Date of Patent:
December 24, 1991
Assignee:
Exxon Chemical Patents Inc.
Inventors:
Mancil W. Milligan, Robert R. Buntin, Fumin Lu
Abstract: Impact-modified polymeric materials are produced by visbreaking certain reactor blends. In a preferred embodiment, impact-modified polypropylene materials are produced by visbreaking a reactor blend of polypropylene and thermoplastic polyethylene. The polypropylene material is preferably homopolypropylene having a melt flow rate of less than about 1 dg/min. Such impact-modified polymeric materials manifest unexpected compatibility characteristics, increased impact resistance at low temperatures, improved antiblush characteristics and improved flow characteristics.
Abstract: A thermoplastic composition containing a first phase of a polar thermoplastic polymer, a second phase of non-polar polyolefin incompatible therewith, and a vinylpyrrolidone grafted polyolefin at least at an interface to compatibilize the different phases. A mixed phase monolayer of the composition containing ethylene-vinyl alcohol copolymer blended with vinylpyrrolidone grafted polypropylene as the first phase, and polypropylene as the second phase, has good oxygen and moisture barrier properties for food packaging applications. Also disclosed is a tieless multilayer laminate of the composition having an interlayer of a blend of ethylene-vinyl alcohol copolymer and vinylpyrrolidone grafted polypropylene and outer layers of polypropylene. The laminate has good oxygen and moisture barrier properties for food packaging applications.