Abstract: Optical and optoelectronic articles incorporating an amorphous diamond-like film are disclosed. Specifically, the invention includes optical or optoelectronic articles containing an amorphous diamond-like film overlying two or more proximate substrates, and to methods of making optical and optoelectronic articles. In certain implementations, the film comprises at least about 30 atomic percent carbon, from about 0 to about 50 atomic percent silicon, and from about 0 to about 50 atomic percent oxygen on a hydrogen-free basis. Another embodiment includes optical or optoelectronic articles containing an amorphous diamond-like film that is further coated with a metallic or polymeric material for attachment to a device package.

Abstract: The subject invention relates to catalyst compositions for oxychlorination of ethylene to produce 1,2-dichloroethane. The catalysts comprise copper chloride, at least one alkali metal, at least one rare earth metal, and at least one Group IIA metal on a high surface area support for fluid bed applications or on a high or low surface area support for fixed bed applications. The catalyst compositions are prepared by depositing the metals on a support. The use of the catalyst compositions of the invention in the oxychlorination of ethylene to EDC results in high percent ethylene efficiency, high EDC product purity and high percent HCl conversion without exhibiting catalyst stickiness. A process for oxychlorination of ethylene to produce 1,2-dichloroethane is also disclosed.

Abstract: The subject invention relates to catalyst compositions for oxychlorination of ethylene to produce 1,2-dichloroethane. The catalysts comprise copper chloride, at least one alkali metal, at least one rare earth metal, and at least one Group IIA metal on a high surface area support for fluid bed applications or on a high or low surface area support for fixed bed applications. The catalyst compositions are prepared by depositing the metals on a support. The use of the catalyst compositions of the invention in the oxychlorination of ethylene to EDC results in high percent ethylene efficiency, high EDC product purity and high percent HCl conversion without exhibiting catalyst stickiness. A process for oxychlorination of ethylene to produce 1,2-dichloroethane is also disclosed.

Abstract: In a preferred embodiment, the invention herein relates to blends of a PVC-containing thermoplastic material and an impact modifier which blends have improved abrasion resistance and a reduced adhesion to glass, said impact modifier has Shore A hardness greater than 70 and is used in an amount of greater than 50 weight parts per 100 weight parts of said thermoplastic material.

Abstract: The utilization of an air classifier process is effective in separating out fine-sized particles (that is, particles having a size generally less than 75 microns) from a composition of mass produced polyvinyl chloride (PVC) or PVC copolymer resin thereby producing so called normal-sized mass PVC resin particles. Such resultant normal mass PVC resin (fine free) contains very little, if any residual glassy particles and can be utilized for making thermoplastic bottles and other articles requiring low residual vinyl chloride monomer. The removal of the fines also improves the bulk handling characteristics of the normal mass PVC resin. The separated fines constitute a novel blending or extender resin and hence can be utilized in association with a PVC dispersion resin to form a plastisol. The extender resin can also be utilized as a sintering resin, as a drying resin for plasticized dry blends or as an antiblocking resin for PVC compounds.

Abstract: Copolymers of vinyl or vinylidene halides and vinyl esters of fatty acids having low molecular weights, good particle characteristics, and improved melt flow are made by aqueous polymerization utilizing an effective amount of a mercaptan as a chain transfer agent, wherein the chain transfer agent is admixed with the vinyl esters to form a chain transfer composition, and the composition be added before the start of the polymerization.

Abstract: Chlorinated polyvinyl chloride resins when crosslinked have improved melt strength in comparison with non-crosslinked chlorinated polyvinyl chloride resins. Moreover, the crosslinked chlorinated polyvinyl chloride resins have unexpected improved processing properties such as reduced processing torgue in comparison with crosslinked polyvinyl chloride resins which upon crosslinking exhibit increased processing torque. Various amounts of non-crosslinked chlorinated polyvinyl chloride and/or non-crosslinked polyvinyl chloride which does not affect said improved properties can be blended with the cross-linked chlorinated polyvinyl chloride resins.