A non-aqueous isotropic electrically conductive signal receptive composite is disclosed comprising a continuous conductive material, with a top surface and a bottom surface with both surfaces substantially covered by a dielectric polymer material with a polar material within the dielectric polymer.

Vapor-permeable, substantially water-impermeable, corrosion-inhibiting composites are disclosed herein. For instance, disclosed herein are composites comprising a first layer comprising a first nonwoven; and a second layer adjacent to and mechanically integrated with the first layer, the second layer comprising a polymer having a melt flow index of about 10 g/10 mins to about 200 g/10 mins, and a corrosion inhibitor, wherein the composite has a moisture vapor transmission rate of from about 25 g/m.sup.2/day to about 1000 g/m.sup.2/day when measured at about 23° C. and about 50% relative humidity. Also disclosed herein are methods of making and using the same.

A synthetic leather has excellent flame retardance and an article covered with the synthetic. The synthetic leather includes a fiber base material layer formed of a non-woven fabric sheet, wherein the non-woven fabric sheet includes at least one flameproof layer formed of a web including a non-melting fiber A having a high-temperature shrinkage rate of 3% or less and a thermal conductivity, conforming to ISO22007-3 (2008), of 0.060 W/m.Math.K or less and is formed by bonding the flameproof layer to a scrim layer including a carbonized heat-resistant fiber B having an LOI value, conforming to JIS K 7201-2 (2007), of 25 or more, and a resin layer is laminated on a surface of the scrim layer, and a covered article covered with the synthetic leather.

A fouling-proof structure is applicable to synthetic leather or fabric and it includes an alcohol-resistant layer; and a water-based fouling-proof layer disposed on the alcohol-resistant layer, wherein the alcohol-resistant layer is formed by curing an alcohol-resistant combination, and the alcohol-resistant combination comprises polyurethane resin, wherein the water-based fouling-proof layer is formed by curing a water-based fouling-proof combination, and the water-based fouling-proof combination comprises polyurethane resin, water, polymerized siloxanes, water-based PTFE and silicone oil.

A textile structure includes a fiber-based layer and a glue layer. The fiber-based layer has meshes and includes fiber of which basic composition is cellulose. The glue layer penetrates into the meshes.

There is provided a polyurethane and/or polyacrylic coating and/or film that includes a polyurethane and/or polyacrylic layer; a biodegradation-inducing additive in the polyurethane and/or polyacrylic layer at a concentration of between 0.1 to 6% by weight. This polyurethane and/or polyacrylic coating and/or film is biodegradable.

Present invention is related to a bio-degradable PVC artificial leather composition having: PVC powder 100 phr, a plasticizer 40˜60 phr and an enzyme 0.5˜4 phr. The bio-degradable material has degradation rate over 90% under anaerobic environment. The combination of plasticizer and enzyme give the present invention the ability of degrading. Because there is no additional bio material involved, the physical property and mechanical property of the present invention can be remained. Since the products made by the present invention only can be degraded under anaerobic environment, the products can maintain in good condition or qualities under normal circumstances with the existing of oxygen.

The present invention refers to a process for the elaboration of a formulation based on polyurethane and mucilage of Opuntia ficus-indica with applications in the manufacturing of synthetic skin-like flexible coatings, in combination with textile substrates such as polyester, cotton, polyester and cotton10 or, with polymers such as PVC, polyurethane, among others, independently of whether it is water-based or oil-based, so that the warp of the substrate allows the generation of rolls of the coating for multiple uses and applications such as tapestry, book cover or as a substitute for coating covers for different objects that require a coating providing an external protection; this formulation has multiple applications since it has the advantage of being biodegradable and it lowers the use of contaminating plastics that contaminate the environment

A method of maintaining soil strength and stability involves positioning a sheet of soil stabilization and strengthening material on a selected area where the strengthening and stabilization of the soil is desired. The sheet of soil stabilization and strengthening material includes a fabric layer that forms a base of the soil stabilization and strengthening material. The lower surface of the fabric layer is positioned against and engages the selected area. A moisture impervious layer is coupled to the upper surface of the fabric layer. A particulate aggregate material is embedded in the moisture impervious layer.

A coating composition containing a. polyvinyl chloride b. one or more compounds of formula (I) ##STR00001## in which R.sup.1a and R.sup.1b are C.sub.7- to C.sub.12-alkyl c. one or more compounds having plasticizing properties selected from adipates comprising C.sub.1- to C.sub.6-radicals, glutarates comprising C.sub.1- to C.sub.6-radicals, sebacates comprising C.sub.2- to C.sub.6-radicals, dibenzoates, monobenzoates comprising a C.sub.5- to C.sub.10-alkyl radical or a benzyl radical, compounds of formula (II), compounds of formula (III), phenyl esters of pentadecylsulfonic acid, cresyl esters of pentadecylsulfonic acid, terephthalates, levulinic esters, isosorbitol valerate, trimellitates and 2,2,4-trimethyl-1-3-pentanediol-diisobutyrate, d. one or more compounds of general formula (IV) ##STR00002##