Described herein are resilient floor coverings produced by using digitally printed UV-cured inks and exhibiting high adhesion properties between an ink layer and a wear layer. Also described herein are methods for manufacturing same. This abstract is intended as a scanning tool for purposes of searching in the particular art and is not intended to be limiting of the present invention.

There are provided a soundproof structure, which can have high soundproofing performance in a wide frequency band and in which visual recognition of through-hole can be suppressed, and a sound absorbing panel and a sound adjusting panel using the soundproof structure. A sheet member having a plurality of through-holes passing therethrough in a thickness direction and a sound absorbing body disposed in contact with one main surface of the sheet member are provided. An average opening diameter of the through-holes is 0.1 μm or more and less than 100 μm. Assuming that the average opening diameter of the through-holes is ϕ (μm) and an average opening ratio is σ a parameter A expressed by A=σ×ϕ.sup.2 is 92 or less.

Polyvinyl chloride compositions and films formed therefrom are described which exhibit improved printability and resistance to weathering. The compositions generally comprise polyvinyl chloride, at least one plasticizer, at least one heat stabilizer, certain UV stabilizer(s), and print additives and/or other agents. In particular versions, the compositions utilize a combination of polyvinyl chloride resins. Also described are various vinyl-based laminates using the films which can be for example reflective products. Also described are methods of producing the noted laminates.

A liquid-repellent layer forming resin composition comprises a polyolefin resin (A), a silylated polyolefin (B), and a compatibilizer (C) having a site compatible with the polyolefin resin (A) and a site compatible with the silylated polyolefin (B), wherein a polyolefin site of the silylated polyolefin (B) is incompatible with the polyolefin resin (A).

Systems for storage of personal hygiene products, such as toothbrushes and shaving devices, are provided. The systems, such as covers for personal care products, provide water and gas permeable storage vessels that are substantially impermeable to microorganisms. The storage systems wick moisture away from enclosed products while providing protection from microbial contamination.

The present invention relates to barrier-coated cellulose-based substrates and to a method of manufacturing such cellulose-based substrates, by dispersion coating of a barrier pre-coating and subsequent vapour deposition coating of a barrier deposition coating. The invention further relates to laminated packaging materials comprising the barrier-coated celluose-based substrates, in particular intended for liquid carton food packaging, and to liquid carton packaging containers comprising the laminated packaging material.

The present invention relates to barrier-coated cellulose-based substrates and to a method of manufacturing such cellulose-based substrates, by dispersion coating of a barrier pre-coating and subsequent vapour deposition coating of a barrier deposition coating. The invention further relates to laminated packaging materials comprising the barrier-coated celluose-based substrates, in particular intended for liquid carton food packaging, and to liquid carton packaging containers comprising the laminated packaging material.

The present invention relates generally to the field of food packaging, in particular food packaging. One embodiment of the present invention relates to a three/dimensional cellulose/based food packaging with excellent barrier properties. For example, the present invention relates to a cellulose-based, multilayer, three-dimensional food packaging comprising a bioplastic layer, a barrier paper layer and a moulded cellulose layer. This cellulose-based, multilayer, three-dimensional food packaging has an oxygen transmission rate (OTR) of less than 30 cc/m.sup.2/d (23 C., 50% RH) and a water vapor transmission rate (WVTR) of less than 20 g/m.sup.2/d (38 C., 90% RH).

The present invention relates generally to the field of food packaging, in particular food packaging. One embodiment of the present invention relates to a three/dimensional cellulose/based food packaging with excellent barrier properties. For example, the present invention relates to a cellulose-based, multilayer, three-dimensional food packaging comprising a bioplastic layer, a barrier paper layer and a moulded cellulose layer. This cellulose-based, multilayer, three-dimensional food packaging has an oxygen transmission rate (OTR) of less than 30 cc/m.sup.2/d (23 C., 50% RH) and a water vapor transmission rate (WVTR) of less than 20 g/m.sup.2/d (38 C., 90% RH).

The present invention relates to a decorative panel, comprising a core layer provided with a decor layer, said dcor layer comprising a substrate layer provided with at least one coating, wherein within said decorative panel at least one induction coil is located. The present invention furthermore relates to the use of such a decorative panel in indoor and/or outdoor furniture and in interior and/or exterior decoration.