A cellular structure may include a plurality of cells each having a twelve-cornered cross section. The twelve-cornered cross section may include twelve sides and twelve corners creating nine internal angles and three external angles. Each cell may include a plurality of longitudinal walls extending between a top and a bottom of the cell, the longitudinal walls intersecting to create corners of the cell. A structural component may include at least one wall surrounding a component interior space with a cellular structure having at least two cells positioned within the interior space. A sandwich structure may include first and second planar structures, and a cellular structure positioned between the first and second substantially planar structures.

Provided is a composite member that has a member containing a fluorine-containing resin and a member containing a thermoplastic resin and demonstrates superior adhesiveness. The composite member is obtained by directly contacting a first member containing a thermoplastic polyurethane and a polyamide elastomer and a second member containing a fluorine-containing resin.

The present invention relates to an ethylene polymer composition for use in adhesive applications, to an article comprising the ethylene polymer composition and to a process for producing said article.

A method includes forming a film, forming a first pattern of two or more vias at least partially through the film, attaching the film to a first support structure, the first support structure comprising an adhesive layer formed over a first carrier, wherein attaching the film to the first support structure comprises bonding a first surface of the film to the adhesive layer of the first support structure, wherein the film is stretchable in at least a first direction along the first surface, and wherein the first carrier maintains the first pattern of vias within a given threshold distortion following a given process conducted after attaching the film to the first support structure.

Disclosed are films comprising polypropylene impact copolymers for tarpaulin applications which can provide a combination of desired properties.

A polymeric tape comprises a facestock extending lengthwise, the facestock including a polymer. An adhesive layer is on a first surface of the facestock. Tear-cuts are formed into at least one longitudinal edge of the facestock and extending inwardly, the tear-cuts being provided all along the at least one longitudinal edge of the facestock.

An insulating material arrangement (10) is disclosed for insulating a building structure (50) such as a wall (52). The material arrangement (10) includes a planar backing layer (12), a planar adhesive layer (14) co-planar with the backing layer (12) and a planar phase change material (PCM) layer (16) which is arranged between the backing layer (12) and the adhesive layer (14), and is also co-planar therewith. The adhesive layer (14) is adapted to secure the material arrangement (10) to the structure in a fitted condition in which the adhesive layer (14) is contacted with the building structure (50). The PCM layer (16) is formed of a silicone foam polymer that is impregnated in some embodiments with micro-encapsulated phase change material in the form of beads, shells or granules (110), and in another arrangement, the PCM layer can also comprise a silicone foam polymer that is impregnated with a phase change material which is absorbed into an amount of porous, inorganic, finely-sized particulate solids (a so-called bound PCM).

An insulating material arrangement (10) is disclosed for insulating a building structure (50) such as a wall (52). The material arrangement (10) includes a planar backing layer (12), a planar adhesive layer (14) co-planar with the backing layer (12) and a planar phase change material (PCM) layer (16) which is arranged between the backing layer (12) and the adhesive layer (14), and is also co-planar therewith. The adhesive layer (14) is adapted to secure the material arrangement (10) to the structure in a fitted condition in which the adhesive layer (14) is contacted with the building structure (50). The PCM layer (16) is formed of a silicone foam polymer that is impregnated in some embodiments with micro-encapsulated phase change material in the form of beads, shells or granules (110), and in another arrangement, the PCM layer can also comprise a silicone foam polymer that is impregnated with a phase change material which is absorbed into an amount of porous, inorganic, finely-sized particulate solids (a so-called bound PCM).

Sound absorbing or attenuating laminate flooring materials are provided, which are directed to be used in the production of floor covering, floor panels, furniture panels, cabinets, counter-tops and wall panels. As well, the methods for producing such products are provided. In particular, abrasion resistant panels, with a laminated structure, created by forming an assembly which consists of laminating a heat-activated resin impregnated paper wear layer, a decorative layer with printed graphics or a wood veneer decorative layer, a medium density (MDF) or high-density (HDF) natural fiber-based core and a resin impregnated paper balancing layer. To achieve sound absorbing and/or attenuating properties, any or all paper layers may be pre coated with an additional flexible elastomeric coating, film or material prior to assembly of the panel, or the natural fiber core panel may be coated with a flexible elastomeric coating, film or material prior to assembly with the papers. The flexible elastomeric coating, film or material acts to absorb, reduce, and/or ameliorate the sound transmissions inherent in laminated panels.

Sound absorbing or attenuating laminate flooring materials are provided, which are directed to be used in the production of floor covering, floor panels, furniture panels, cabinets, counter-tops and wall panels. As well, the methods for producing such products are provided. In particular, abrasion resistant panels, with a laminated structure, created by forming an assembly which consists of laminating a heat-activated resin impregnated paper wear layer, a decorative layer with printed graphics or a wood veneer decorative layer, a medium density (MDF) or high-density (HDF) natural fiber-based core and a resin impregnated paper balancing layer. To achieve sound absorbing and/or attenuating properties, any or all paper layers may be pre coated with an additional flexible elastomeric coating, film or material prior to assembly of the panel, or the natural fiber core panel may be coated with a flexible elastomeric coating, film or material prior to assembly with the papers. The flexible elastomeric coating, film or material acts to absorb, reduce, and/or ameliorate the sound transmissions inherent in laminated panels.