A process for coating a glass article of manufacture may include providing a glass article at an initial temperature of above about 105 C., and depositing a coating onto a surface of said glass article. The coating may include an adhesion promoter and a compounded polymer that includes a copolymer of an -olefin and an ,-unsaturated carboxylic acid and a wax. The process may include heating said glass article to a temperature above said initial temperature sufficient to promote adhesion of said coating to said glass article. Glass articles having the coating adhered to the glass article are also described.

Crosslinkable polymeric compositions comprising an ethylene-based polymer, an organic peroxide, and a crosslinking coagent having at least one N,N-diallylamide functional group. Such crosslinkable polymeric compositions and their crosslinked forms can be employed as polymeric layers in wire and cable applications, such as insulation in power cables.

Crosslinkable polymeric compositions comprising an ethylene-based polymer, an organic peroxide, and a crosslinking coagent having at least one N,N-diallylamide functional group. Such crosslinkable polymeric compositions and their crosslinked forms can be employed as polymeric layers in wire and cable applications, such as insulation in power cables.

Powder for cold spray containing a mixture of powder of a macromolecule and nanoparticles of a ceramic. Macromolecular coating film containing a mixture of powder of a macromolecule and nanoparticles of a ceramic.

Powder for cold spray containing a mixture of powder of a macromolecule and nanoparticles of a ceramic. Macromolecular coating film containing a mixture of powder of a macromolecule and nanoparticles of a ceramic.

A optical element includes a surface including a zinc sulfide layer; a coupling agent adhered to the zinc sulfide layer by a disulfide bond and including a hydrocarbon tail extending from the disulfide bond; and a polymer bonded to the hydrocarbon tail of the coupling agent by a covalent bond; wherein the polymer and the coupling agent are optically transparent in the long wavelength infrared (LWIR) region.

A optical element includes a surface including a zinc sulfide layer; a coupling agent adhered to the zinc sulfide layer by a disulfide bond and including a hydrocarbon tail extending from the disulfide bond; and a polymer bonded to the hydrocarbon tail of the coupling agent by a covalent bond; wherein the polymer and the coupling agent are optically transparent in the long wavelength infrared (LWIR) region.

Disclosed is a force transmission belt comprising a belt member that has a base portion (11) and a force transmission zone (12) thereon, and comprising a polyethelene coating (18) on at least one surface of the belt member; in order to increase the service life, the polyethylene coating (18) is subjected to radiation at a dose of 30 to 300 kGy to increase the wear resistance of the coating.

Disclosed is a force transmission belt comprising a belt member that has a base portion (11) and a force transmission zone (12) thereon, and comprising a polyethelene coating (18) on at least one surface of the belt member; in order to increase the service life, the polyethylene coating (18) is subjected to radiation at a dose of 30 to 300 kGy to increase the wear resistance of the coating.

The invention provides a composition comprising a first ethylene-based polymer, formed by a high pressure, free-radical polymerization process comprising at least one autoclave reactor, and a second ethylene-based polymer, formed by a high pressure, free-radical polymerization process comprising at least one autoclave reactor, such composition comprising the following properties: A) a melt index (I2) from 2.5 to 10 g/10 min; B) a density from 0.920 to 0.935 g/cc; and wherein the second polymer is present in an amount from 5 to 95 weight percent, based on the sum of the weight of the first polymer and the second polymer; and wherein the density of the of the second polymer is greater than the density of the first polymer, and wherein the first polymer has a melt index I2 greater than 2.5 g/10 min.