A cloth mask includes a body, where the body has a piece of copper ion cloth and a piece of zinc oxide antibacterial cloth, the copper ion cloth is woven by a mixture of a first yarn, a second yarn and a copper yarn, the first yarn has a hydrophobicity and a moisture permeability and can form a water-resistant surface, and has a water-repellent effect and is exposed at an inner layer of the copper ion cloth, and the second yarn has a moisture-removing property and can form an antibacterial and moisture-removing surface to be exposed together with the copper yarn on a surface of the copper ion cloth.

The present disclosure provides a film. In an embodiment, a multilayer film is provided and includes (A) a seal layer, (B) a barrier layer, and (C) an odor control layer. The odor control layer includes an odor control composition containing (A) from 85 wt % to 99.5 wt % of an olefin-based polymer and (B) from 15 wt % to 0.5 wt % of an odor suppressant. The odor suppressant includes a blend of: (i) an ionomer, (ii) particles of zinc oxide, and (iii) particles of copper oxide. The composition has a methyl mercaptan odor suppression value of greater than 45% as measured in accordance with ASTM D5504-12.

The invention relates to a multi-layer paneling structure having a high gloss cap and second layer of high impact resistance thermoplastic polymer or composites for exterior and interior paneling applications where chemical resistance and/or scratch resistance is desired. The invention also relates to a high gloss, multi-layer panel that can easily be repaired, once marred, to return the surface gloss to at least 90% of the original surface gloss. The invention further relates to articles made with the multi-layer paneling structure of the invention. The multi-layer structure can be used alone, or can be very thin and used as a replacement for an undercoating and coating on an article, such as a metal car part.

Provided is a thermal conducting sheet, including: a binder resin; insulating-coated carbon fibers; and a thermal conducting filler other than the insulating-coated carbon fibers, wherein the insulating-coated carbon fibers include carbon fibers and a coating film over at least a part of a surface of the carbon fibers, the coating film being formed of a cured product of a polymerizable material.

Provided is a thermal conducting sheet, including: a binder resin; insulating-coated carbon fibers; and a thermal conducting filler other than the insulating-coated carbon fibers, wherein the insulating-coated carbon fibers include carbon fibers and a coating film over at least a part of a surface of the carbon fibers, the coating film being formed of a cured product of a polymerizable material.

A laminate of a thermoplastic resin or thermoplastic elastomer composition film and a rubber composition layer, which can be used as an inner liner for a pneumatic tire, with improved adhesive strength at the interface of the thermoplastic resin or thermoplastic elastomer composition film and the rubber composition layer. A laminate comprising a thermoplastic resin or thermoplastic elastomer composition film and a rubber composition layer, the rubber composition containing a rubber component, a condensate of a phenol compound and formaldehyde, and methylene donor and a vulcanizing agent, wherein 2.5-40% by mass of the rubber component is butyl rubber or halogenated butyl rubber, the content of the condensate is 0.5-20 parts by mass per 100 parts by mass of the rubber component, and the content of the methylene donor is 0.25-200 parts by mass per 100 parts by mass of the rubber component.

A coating liquid includes: ultrafine zinc oxide particles; a polyester resin; an ammonium polycarboxylate salt; and water, in which an amount of the ammonium polycarboxylate salt is from 1 to 35 mass % with respect to that of the ultrafine zinc oxide particles.

A laminate of a thermoplastic resin or thermoplastic elastomer composition film and a rubber composition layer, which can be used as an inner liner for a pneumatic tire, with improved adhesive strength at the interface of the thermoplastic resin or thermoplastic elastomer composition film and the rubber composition layer. A laminate comprising a thermoplastic resin or thermoplastic elastomer composition film and a rubber composition layer, the rubber composition containing a rubber component, a condensate of a phenol compound and formaldehyde, and methylene donor and a vulcanizing agent, wherein 2.5-40% by mass of the rubber component is halogenated isomonoolefin-p-alkyl styrene copolymer, the content of the condensate is 0.5-20 parts by mass per 100 parts by mass of the rubber component, and the content of the methylene donor is 0.25-200 parts by mass per 100 parts by mass of the rubber component.

The present disclosure provides a film. In an embodiment, a multilayer film is provided and includes (A) a seal layer, (B) a barrier layer, and (C) an odor control layer. The odor control layer includes an odor control composition containing (A) from 85 wt % to 99.5 wt % of an olefin-based polymer and (B) from 15 wt % to 0.5 wt % of an odor suppressant. The odor suppressant includes a blend of: (i) an ionomer, (ii) particles of zinc oxide, and (iii) particles of copper oxide. The composition has a methyl mercaptan odor suppression value of greater than 45% as measured in accordance with ASTM D5504-12.

A pipe (1) comprises at least one first layer (3) and one second layer (2), wherein the first layer (3) has a first plastic K1, wherein the first plastic K1 has a conversion temperature T.sub.UK1. The second layer (2) comprises a second plastic K2, wherein the second plastic K2 has a conversion temperature T.sub.UK2. The first layer (3) has an aggregate Z, wherein aggregate Z is not a polymer or copolymer. Aggregate Z is preferably a solid, wherein the solid is a semiconductor or nonconductor Aggregate Z facilitates the dielectric heating of the pipe.