Abstract: This invention provides catalyst compositions that are useful for polymerizing at least one monomer to produce a polymer. This invention also provides catalyst compositions that are useful for polymerizing at least one monomer to produce a polymer, wherein said catalyst composition comprises contacting an organometal compound, an organoaluminum compound, and a solid, wherein said solid is selected from the group consisting of titanium tetrafluoride, zirconium tetrafluoride, and a treated solid oxide compound.

Abstract: A process is provided for curing poly(arylene sulfide) polymers by achieving and maintaining curing conditions in a cure vessel, then intermittently adding uncured polymer to said cure vessel and intermittently removing polymer from the cure vessel wherein the removal of polymer from the cure vessel is performed at intervals such that the presence of uncured polymer is minimized or avoided.

Abstract: Catalyst activation of a platinum reforming catalyst system contained in a multiple reactor system by simultaneously reducing the catalyst with hydrogen while introducing a nonmetallic chlorine-containing compound into a reactor of the multiple reactor system in an amount to add from about 0.05 to about 0.3 weight percent chlorine to the catalyst and thereafter purging the system with about 100 to about 50,000 cubic feet of hydrogen per cubic foot of catalyst resulting in a reforming system having increased activity and providing enhanced RON values with reduced cracking of feedstock.

Abstract: A chemometric method for predicting unknown properties in polymers using an on-line NMR system comprising the steps of producing a predictive data set and using the predictive data set to obtain unknown amounts of properties in a polymer. In a preferred embodiment, the process begins by obtaining free induction decays for samples of polypropylene with measured concentrations of xylene soluble polypropylene from a xylene soluble polypropylene data set to produce a free induction decay data set. The free induction decay data set is analyzed using PCA to produce a principle component data set. The principle component data set, the xylene soluble polypropylene data set, and the free induction decay data set, are analyzed using partial-least squares analysis to produce a training data set and the training data set is subsequently validated to produce a predictive data set.

Abstract: A novel high stability catalyst composition comprising a mixture of zeolite and zinc spinel that has been treated with a reducing gas under high temperature conditions, a method of making such high stability catalyst, and the use thereof for converting paraffin hydrocarbons to olefins and aromatics.

Abstract: Alumina is calcined and thereafter given a phosphating treatment. The resulting composition is particularly suitable for a support for a transition metal compound such as chromium oxide to provide an olefin polymerization catalyst. The resulting catalyst is capable of producing polymer at unusually high productivity rates and also gives the ability to produce high melt flow polymer.

Abstract: A method of selectively cracking C.sub.3 and C.sub.4 hydrocarbons to C.sub.2 hydrocarbons, particularly ethylene, in which a body of cracking catalyst is established in a reaction zone and the feed hydrocarbons are passed through the body of catalyst while maintaining the conditions sufficient to convert the feed hydrocarbons to product hydrocarbons, including, a temperature in the upstream end of the body of catalyst at least about 100.degree. C. below the temperature in the downstream end of the body of catalyst. The cracking catalyst is preferably selected from the group consisting of: at least one oxide of manganese and at least one oxide of magnesium; at least one oxide of manganese and at least one oxide of at least one metal selected from the group consisting of Lanthanum Series metals, preferably lanthanum or cerium, and niobium; at least one oxide of iron and at least one oxide of magnesium; and at least one oxide of iron and at least one oxide of a Lanthanum Series metals or niobium.

Abstract: A catalyst composition is prepared by dissolving a suitable vanadium and oxygen containing compound, a suitable nickel (II) compound and ammonia in water, mixing this solution with an alumina containing support material, and calcining this mixture. This catalyst composition is used primarily for hydrotreating of hydrocarbon feed stream, which contain nickel, vanadium and sulfur impurities, particularly heavy oils.

Abstract: A cracking catalyst used to crack oil to produce gasoline or higher-boiling hydrocarbon fuel is contacted with both (A) antimony or a compound thereof such as antimony tris(0,0-dipropyl phosphorodithioate) and (B) a modifying composition consisting essentially of carbon, hydrogen, nitrogen, and sulfur produced by the treatment of a metal salt of a dialkyl dithiocarbamate with a hydrolyzable germanium (IV) compound such as germanium tetrachloride, the contacting of the catalyst with (A) and (B) prior to, during, or after use of the catalyst in a cracking process being effective in precluding or reducing adverse effects of metals such as nickel, vanadium, and iron.

Abstract: A mixed olefin feedstock obtained from disproportionating C.sub.8 -C.sub.10 1-olefins can be used as such, i.e. without removal of 1-olefins in a boron trifluoride catalyzed dimerization step to produce synthetic lubricating oils. The results achieved are as good as those achieved using a feedstock from which the undisproportionated 1-olefins have been removed so that this feedstock contains only internal olefins for the dimerization.

Abstract: Heavy reaction product after separation as by distillation of light reaction product or diadduct from a reaction mixture obtained by reaction of olefinically unsaturated nitriles with monoolefinic hydrocarbons containing an allylic hydrogen atom is hydrogenated to produce a polyamine mixture useful as an epoxy resin hardener yielding cured resins exhibiting low water absorption.

Abstract: A quantitative analysis of the concentration of an eluted component, the dielectric constant of an eluted component and/or the refractive index of the eluted component is obtained using a chromatographic analyzer in combination with both a refractive index detector and a dielectric constant detector without the need to calibrate either the refractive index detector or the dielectric constant detector for each component in a sample. The dielectric constant detector and the refractive index detector are utilized to analyze a sample provided from a chromatographic analyzer. The concentration of the eluted component is a function of the magnitude of the output from each of the detectors. In like manner, the dielectric constant of the eluted component and the refractive index of the eluted component is a function of the output from the two detectors.