The present invention relates to a functional film and a method for manufacturing the same, the functional film being organically and inorganically laminated to have a desired function such as high gas barrier performance and having high adhesiveness between inorganic and organic layers. The organic layer on top of the inorganic layer contains an organic solvent; an organic compound formed of the organic layer; and a silane coupling agent with a concentration between 0.1 and 25 percentages by mass excluding the organic solvent, the organic layer uses a coating material not containing a pH controller, and the organic layer is formed through curing via a heating process after coating.

A method for manufacturing a heat conductive adhesive film includes: forming a non-solid heat conductive adhesive layer with cured particles on a substrate; forming several bumps on the non-solid heat conductive adhesive layer while performing curing, so as to yield the heat conductive adhesive film with several bumps. A heat conductive adhesive film and an OLED panel are provided. Several bumps are formed on a flat surface of the heat conductive adhesive film, thus increasing the surface area of the heat conductive adhesive film such that heat from the heat generating unit can be duly discharged.

The present invention provides a double-sided tape for a touch screen panel which comprises a shock resistant filler layer to exhibit excellent viscosity while being thin and have excellent shock resistance and an excellent waterproof property, and a manufacturing method.

The present invention provides a waterproof tape having improved adhesion which comprises a filler layer having formed on one side of a base film to exhibit excellent viscosity while being thin and has excellent shock resistance and an excellent waterproof property, and a manufacturing method.

The present invention provides a waterproof tape for an automobile battery which comprises a filler layer having formed on one side of a base film to exhibit excellent viscosity while being thin and has excellent shock resistance and an excellent waterproof property, and a manufacturing method.

A system of pointillist painting, including a colorant dispenser having a syringe configured for storing a liquid colorant, and a colorant dispensing tip operable to be moved to successive specified positions on a painting surface, where the colorant dispenser is operable to apply specified amounts of a liquid colorant to the painting surface and creating a plurality of colorant dots each having a two-dimensional coverage and three-dimensional profile at the specified positions on the painting surface; and an air nozzle coupled to the colorant dispensing tip operable to controllably direct a controlled puff of pressurized air at least one of the plurality of colorant dots already deposited on the painting surface to modify at least one of the two-dimensional coverage and three-dimensional profile thereof is disclosed.

A relative humidity sensor is disclosed. The relative humidity sensor includes a first electrode and a second electrode disposed above a dielectric substrate. A sensitive layer is disposed above the first electrode and the second electrode, where the sensitive layer is formed from a doped conductive polymer.

Methods, processes, compositions and systems for preventing leaching effects from water pipes (such as lead, steel and copper) having an inner diameter of at least approximately 12 mm. 2-part thermoset resin coating is applied to the inner surfaces of the pipes where the curing agent can be a phenol free and plasticizer free adduct type. The coating can reduce heavy metals, such as lead, from leaching from installed pipes to less than approximately 10 g/L (10 ppb). When cured, specific leachates, Bisphenol A and Epichlorohydrin from the coatings will be (less than)<1 g/L (1 ppb) with overall TOC levels measured at (less than)<2.5 mg/L (2.5 ppm). Pipes can be returned to service within approximately 24 hours, and preferably within approximately 4 hours.

The invention pertains to a dish support rack having outstanding resistance to chemically harsh environments, and possessing improved mechanical properties, said dish support rack comprising a metal wire frame coated with a polyamide composition [composition (C)] comprising: more than 50% wt of a polyamide [polyamide (A), herein after], more than 50% moles of recurring units of said polyamide complying with formula: HN(CH.sub.2).sub.6NHC(O)(CH.sub.2).sub.8C(O) [recurring units (R.sub.6,10)], and, optionally: up to 10% wt of conventional filler(s) and/or additive(s), and to a method for its manufacture.

A drier for air-drying an auto-oxidizable resin composition, said drier comprising: 1,4,7-trialkyl-1,4,7-triazacyclononane (L); a manganese salt having the general formula Mn.sup.2+[X].sub.n, wherein anion X is selected from PF.sub.6.sup., SbF.sub.6.sup., AsF.sub.6.sup., BF.sub.4.sup., B(C.sub.6F.sub.5).sub.4.sup., Cl.sup., Br.sup., I.sup., NO.sub.3, or R.sub.2COO.sup. in which case n=2, or the anion X is SO.sub.4.sup.2 in which case n=1, and wherein R.sub.2 is C.sub.1-C.sub.20 alkyl optionally substituted with heteroatoms, C.sub.6-C.sub.20) aryl optionally substituted with heteroatoms, or a polymeric residue; wherein the 1,4,7-trialkyl-1,4,7-triazacyclononane (L) is present in the mixture in an amount such that the molar ratio of Mn:L is at least 1.25:1 and preferably at least 1.5:1.