An impregnate with antistatic properties for use in laminates or for coating wood-based panels is disclosed. A resin used for impregnating and/or coating paper may include carbon-based particles, at least one compound of the general formula (Ia) R.sup.1.sub.aSiX.sub.(4-a), R.sup.3.sub.cSiX.sub.(4-c)(II), and inorganic particles. X is methoxy, ethoxy, n-propoxy or i-propoxy. R.sup.1 is an organic radical selected from the group including methyl, ethyl, propyl, or vinyl, and has at least one functional group Q.sub.1, selected from the group including acrylic, acryloxy, methacrylic, methacyloxy, or epoxy. R.sup.3 is a non-hydrolyzable organic radical selected from the group including C1-C10 alky, C6-10 aryl, wherein C is 1, 2, or 3, and the inorganic particles have a size between 2 nm and 400 nm.

A surface treated copper foil 1 includes a copper foil 2, and a first surface treatment layer 3 formed on one surface of the copper foil 2. The first surface treatment layer 3 of the surface treated copper foil 1 has a root mean square gradient of roughness curve elements RΔq according to JIS B0601:2013 of 5 to 28°. A copper clad laminate 10 includes the surface treated copper foil 1 and an insulating substrate 11 adhered to the first surface treatment layer 3 of the surface treated copper foil 1.

A method for the production of grounded panels and to a panel having a core made from a wood material board. The method includes provision of a wood material board, application of a grounding in the form of a synthetic resin layer to at least one topside of the wood material board, application of a coating to an underside, lying opposite the topside of the wood material board, of the wood material board, pressing of the layer build-up consisting of the wood material board, grounding and coating under the influence of pressure and, if appropriate, temperature, division of the grounded and coated wood material board into individual panels, cutting machining of side faces of the panels for the incorporation of connection and locking means, and transport-safe packaging of the grounded panels.

A decorative laminate of the present disclosure includes a decorative layer and a core layer. The decorative layer includes a decorative paper and a thermosetting resin. The core layer includes: a fibrous base material; an organic resin component; and an inorganic filler including endothermic metal hydroxide and/or an inorganic substance other than the endothermic metal hydroxide. The inorganic filler includes: a small particle diameter filler having a first average particle diameter; a medium particle diameter filler having a second average particle diameter larger than the first average particle diameter; and a large particle diameter filler having a third average particle diameter larger than the second average particle diameter.

The invention relates to composite articles and laminated polymeric materials, for example, paper and plastic-based materials for tokens, and can be used in the manufacture of security articles. An article comprises a disc insert of laminated plastic and an outer metal. The insert includes stacked paper sheets impregnated with a polymer binder. Surface of each sheet is covered with a polymer layer and comprises visual and/or hidden security features. The ring and the disc insert are permanently joined together. At least one of the article components has an embossing. Dimensions of the article are in conformity with the relations: 0.8≤δ2/δ1<1; D1−D2≥8; 0.3≤S1/S2<0.9; D2>16 mm; Δ≤1, where D1 is outer diameter of the metal ring, excluding edge surface, mm; D2—diameter of the disc insert, mm; S1—area of the metal ring, excluding edge surface, mm.sup.2, S2—area of the disc insert, mm.sup.2; δ1—maximum thickness of the metal ring, mm; δ2—maximum thickness of the disc insert, mm; Δ—difference between maximum and minimum protruding elements of the metal component of the article, mm. The article has an enhanced level of security and is simple both in the manufacture and in its authentication.

An impregnate with antistatic properties for use in laminates or for coating wood-based panels is disclosed. A resin used for impregnating and/or coating paper may include carbon-based particles, at least one compound of the general formula (I) R.sup.1.sub.aR.sup.2.sub.bSiX.sub.(4-a-b), and/or hydrolysis products thereof. X is H, OH, or a hydrolysable moiety selected from the group including halogen, alkoxy, carboxy, amino, monoalkylamino or dialkylamino, aryloxy, acyloxy, or alkylcarbonyl. R.sup.1 is an organic moiety selected from the group including alkyl, aryl, or cycloalkyl, which may be interrupted by —O— or —NH—. R.sup.1 has at least one functional group Q.sup.1 selected from a group including a hydroxy-, amino, monoalkylamino, carboxy, mercapto, alkoxy, aldehyde, acrylic, acryloxy, methacrylic, methacryloxy, cyano, isocyano or epoxide group. R.sup.2 is a non-hydrolyzable organic moiety selected from the group including alkyl, aryl, alkenyl, alkynyl, cycloalkyl, cycloalkenyl; a is 0, 1, 2, or 3, and b is 1, 2, 3, or 4.

An applicator for providing an active composition to a surface, the applicator comprising a cellulosic substrate having anionic sites (e.g. paper, paper laminates, cardboard or a woven or non-woven plant fabric such as a wood pulp or cotton material); and an impregnated or coated composition, the impregnated composition comprising a bioactive cationic component in an amount sufficient in use to deactivate the anionic sites in the cellulosic substrate and to provide a desired effect, for example, a biocidal effect, enhanced skin feel, enhanced skin health and fabric softening. The applicator may be in the form of a sheet wipe, with a single or multiple layers of cellulosic substrate. The applicator is preferably substantially dry. Also, an applicator for providing an active composition to a surface, the applicator comprising at least two layers of cellulosic substrate having anionic sites; said layers being adhered to each other by an adhesive composition comprising a cationic component in an amount sufficient in use to deactivate the anionic sites in the cellulosic substrate and to provide a desired effect. The adhesive composition may also comprise a water-soluble or water dispersible adhesive polymer. Also methods of preparing and using the applicator e.g. to disinfect skin or an inanimate surface.

A honeycomb core includes a honeycomb substrate comprised of a number of sheets. A number of traces are printed onto the sheets of the honeycomb substrate. A number of integrated electronic devices are disposed within the honeycomb substrate. The integrated electronic devices are electrically coupled to the traces.

A high thermal conductivity prepreg is provided. The high thermal conductivity prepreg includes a high thermal conductivity reinforcing material and a dielectric material layer formed on the surface of the high thermal conductivity reinforcing material, wherein the high thermal conductivity reinforcing material is prepared by a process which includes the following steps: (a) providing a precursor aqueous solution, the precursor aqueous solution includes a precursor selected from the group of organic salts, inorganic salts, and combinations thereof; (b) subjecting the precursor aqueous solution to a hydrolysis reaction to form an intermediate product aqueous solution; (c) subjecting the intermediate product aqueous solution to a condensation polymerization reaction to form a pretreatment solution; (d) impregnating a reinforcing material with the pretreatment solution; and (e) oven-drying the impregnated reinforcing material to obtain the high thermal conductivity reinforcing material.

A cleaning product includes an elongated sheet having a length. The elongated sheet is divided into a plurality of individual sheet sections that extend in series along the length. At least one of the individual sheet sections is a moist sheet section having a moist center section impregnated with a cleaning solution, and at least one of the individual sheet sections is a dry sheet section having a dry center that is impregnated with a hydrophobic solution. The cleaning product has a plurality of the moist sheet sections that are spaced from one another and a plurality of the dry sheet sections that are spaced from one another along the length of the elongated sheet. The moist sheet sections and the dry sheet sections are arranged in a binary pattern that alternates back and forth between one of the moist sheet sections and one of the dry sheet sections.