There is provided a conductive adhesive which can suppress erosion of polycarbonate and form a cured product exhibiting excellent conductivity at a low temperature. There is also provided a conductive adhesive which can form a cured product exhibiting excellent adhesive property to plastics (particularly carbonate) at a low temperature.

The conductive adhesive according to the present invention is a conductive adhesive which contains the following components (A) to (C) and is liquid at 25 C.: component (A): an alicyclic epoxy resin; component (B): a boron-based thermal cationic initiator; and component (C): a conductive filler.

One embodiment is an apparatus comprising a transparent film having adhesive material disposed on a first planar surface thereof and a design imprinted on a second planar surface thereof, wherein the second planar surface is opposite the first planar surface and wherein the design comprises a plurality of graphical elements each having an outline therearound in a color that contrasts with a color of the element.

The present invention provides an antifouling coating film that exhibits suppressed elution of an organism repellent in exposure to a dynamic water flow in water and exhibits an antifouling property for a long time and a method of manufacturing the same, a water-contacting structure with an antifouling coating film, and an antifouling tape and a method of manufacturing the same, and relates to an antifouling coating film containing a binder (A) and an organism repellent (B), having a riblet structure on a surface thereof, the organism repellent (B) containing one or more kind selected from the group consisting of copper pyrithione, zinc pyrithione, 4-bromo-2-(4-chlorophenyl)-5-(trifluoromethyl)-1H-pyrrole-3-carbonitrile, and 4,5-dichloro-2-n-octyl-4-isothiazolin-3-one, and a method of manufacturing the same.

An object of the present invention is to provide an antifouling coating composition that can form an antifouling coating film having excellent adhesion to a base (substrate) even in a low-temperature environment, as well as excellent antifouling property. Another object of the present invention is to provide an antifouling coating film, a laminated antifouling coating film, an antifouling tape, a substrate with the antifouling coating film, and a method of producing the same formed from the antifouling coating composition, as well as an antifouling method. The antifouling coating composition of the present invention is an antifouling coating composition containing a photocurable organopolysiloxane (A), a slipping agent (B), and a photopolymerization initiator (C), the content of the photocurable organopolysiloxane (A) in the solid content of the antifouling coating composition being 50% by mass or more and 98% by mass or less.

A multilayer protective sheet material with an adhesive backing is both durable and easy to install and conforms FAA standards. This sheet material may also include on optional layer of colored pigment.

It is an object of the present disclosure to provide an interior member for an aircraft, a manufacturing method of the member and a replacement method of the member in which replacement cost can be reduced. An interior member for an aircraft according to the present disclosure includes a substrate, a decorative layer that covers the surface of the substrate, and an adhesive layer that adheres to the decorative layer to the substrate, and the decorative layer is peelably pasted to the surface of the substrate via the adhesive layer in a range that meets a required adhesive strength and that does not affect the substrate.

A non-contact method of joining two components via direct heating of a thermoset adhesive includes applying the thermoset adhesive to at least a first component of the two components. The thermoset adhesive includes a susceptor to reacts in the presence of an electromagnetic field. The method includes placing the first component and a second component of the two components in proximity to an electromagnetic field. In some aspects, the method includes placing the first and second components in proximity to an electromagnetic field of a capacitor. The susceptor interacts with the electromagnetic field to heat the thermoset adhesive via resistive heating. In some aspects, a method of direct-contact heating of the thermoset adhesive includes attaching electrodes to a film comprising the adhesive. The components being joined together are not directly heated by the electromagnetic field, and as a result experience much lower temperatures than the thermoset adhesive.

There is provided a laminated hybrid metallized polymer film for erosion protection of a composite structure. The laminated hybrid metallized polymer film includes a metal foil layer, a laminating adhesive layer underlying the metal foil layer, and a polymer film layer underlying the laminating adhesive layer. The polymer film layer is laminated to the metal foil layer with the laminating adhesive layer coupled between the metal foil layer and the polymer film layer. The laminated hybrid metallized polymer film further includes an adhesive layer underlying the polymer film layer. The adhesive layer adheres the polymer film layer to a substrate surface of the composite structure. The metal foil layer, the laminating adhesive layer, the polymer film layer, and the adhesive layer form the laminated hybrid metallized polymer film for application over and to the substrate surface of the composite structure.

Adhesive formulations comprising bovine serum albumin, b-lactoglobulin, and/or a-lactalbumin can be applied and cured underwater to form a strong adhesive. Curing can be accomplished using heat or via a chemical denaturing component.