A guide roller for a cargo doorway of an aircraft is provided. The guide roller includes a mandrel, a first layer of a second rubber wrapping compound disposed circumferentially around the mandrel, at least one first layer of a first rubber wrapping compound disposed circumferentially around the first layer of the second rubber wrapping compound, a second layer of the second rubber wrapping compound disposed circumferentially around the at least one first layer of the first rubber wrapping compound, at least one second layer of the first rubber wrapping compound disposed circumferentially around the second layer of the second rubber wrapping compound, and at least one third layer of the second rubber wrapping compound disposed circumferentially around the at least one second layer of the first rubber wrapping compound.

A guide roller for a cargo doorway of an aircraft is provided. The guide roller includes a mandrel having a first end, a second end, and a plurality of cavities disposed between the first end and the second end; and a material injected into an inside the plurality of cavities of the mandrel.

In general terms present invention proposes a biodegradable packaging material (100). The biodegradable packaging material comprises an inner layer (102) comprising an enhanced polymeric substrate: an outer layer (104) comprising a printable substrate; and a middle layer (106), arranged between the inner layer and the outer layer, comprising at least one functionalized graphene layer, wherein the biodegradable packaging material is suitable for an anaerobic digestion, when disposed. In general terms present invention also proposes a method for manufacturing the biodegradable packaging material.

An electrical conductor includes: a first conductive layer including a plurality of ruthenium oxide nanosheets, wherein at least one ruthenium oxide nanosheet of the plurality of ruthenium oxide nanosheets includes a halogen, a chalcogen, a Group 15 element, or a combination thereof on a surface of the ruthenium oxide nanosheet.

A packaging material comprising a substrate and a liner extending along the substrate. The liner comprises at least a biopolymer and graphene nanoplatelets to provide a gas barrier along at least a portion of the packaging material.

An interlayer film for laminated glass, including a thermoplastic resin and a filler (A) having visible light reflection performance.

An interlayer film for laminated glass including a first resin layer including a thermoplastic resin and a second resin layer including a thermoplastic resin, wherein, for laminated glass made by adhering two clear glass plates to each other via the interlayer film for laminated glass, a visible light reflectance Rv1 measured on a surface on the first resin layer side is 10% or more and a visible light reflectance (Rv2) measured on a surface on the second resin layer side is 7% or less.

Provided are an electromagnetic wave shielding material including a magnetic layer containing magnetic particles and a resin, between two metal layers, in which the magnetic layer is in direct contact with each of the two metal layers, and the magnetic layer contains 13 parts by mass or more and less than 30 parts by mass of a urethane bond-containing resin with respect to 100 parts by mass of a total mass of the magnetic layer, and an electronic component and an electronic apparatus including the electromagnetic wave shielding material.

Disclosed is a method for manufacturing a barrier-coated substrate web, coated with a first layer of a reducing agent and water-dispersible polymer, and a second layer of reduced graphene oxide. Also disclosed is a laminated packaging materials comprising the barrier-coated substrate web, in particular intended for liquid carton food packaging, and to liquid carton packaging containers comprising the laminated packaging material.

Buchanan

An article including a composite. The composite includes a polymeric binder and particles in the polymeric binder, the particles being magnetically responsive and having a flake-like geometry. The particles include a thermally anisotropic material such that the particles are characterized by a higher in-plane thermal conductivity and a lower through-plane conductivity. The composite is characterized by at least one preferred thermal conduction path defined in sections of differently oriented alignments of the particles. At least two of the sections are differently oriented relative to one another by a gradient angular difference such that the at least two of the sections are non-parallel and non-perpendicular to one another. In specific embodiments, the particles are hexagonal boron nitride with superparamagnetic iron oxide nanoparticles adsorbed thereon, and the polymeric binder includes polyvinyl pyrrolidone.