An insulating material arrangement (10) is disclosed for insulating a building structure (50) such as a wall (52). The material arrangement (10) includes a planar backing layer (12), a planar adhesive layer (14) co-planar with the backing layer (12) and a planar phase change material (PCM) layer (16) which is arranged between the backing layer (12) and the adhesive layer (14), and is also co-planar therewith. The adhesive layer (14) is adapted to secure the material arrangement (10) to the structure in a fitted condition in which the adhesive layer (14) is contacted with the building structure (50). The PCM layer (16) is formed of a silicone foam polymer that is impregnated in some embodiments with micro-encapsulated phase change material in the form of beads, shells or granules (110), and in another arrangement, the PCM layer can also comprise a silicone foam polymer that is impregnated with a phase change material which is absorbed into an amount of porous, inorganic, finely-sized particulate solids (a so-called bound PCM).

A first bonding material composition according to the present invention is a bonding material composition used when aluminum nitride sintered bodies containing a rare-earth metal oxide are bonded to each other, in which the bonding material composition contains, in addition to an O element-containing aluminum nitride raw material, (a) as a fluorine compound, at least one of a fluorine compound of an alkaline-earth metal and a fluorine compound of a rare-earth metal, or (b) as a fluorine compound, at least one of a fluorine compound of an alkaline-earth metal and a fluorine compound of a rare-earth metal, and a rare-earth metal oxide.

L.sub.1 is a maximum distance across a non-contacting section between intersection points of a straight line crossing the non-contacting section in parallel with an alignment direction of a carbon nanotubes in a plan view of a mounting section with a border between the non-contacting section and a contacting section. L.sub.2 is a maximum distance across the non-contacting section between intersection points of a straight line crossing the non-contacting section and intersecting the alignment direction of the carbon nanotubes in the plan view of the mounting section with the border between the non-contacting section and the contacting section. When L.sub.1 is larger than L.sub.2, at least L.sub.2 is more than 0 mm and less than 10 mm. When smaller, at least L.sub.1 is more than 0 mm and less than 10 mm. When equal, L.sub.1 and L.sub.2 are each more than 0 mm and less than 10 mm.

Disclosed is a composition comprising: a) an condensate of one or more aminohydrocarbyl alkoxy silanes and one or more alkenyl alkoxy silanes; b) one or more mercaptohydrocarbyl alkoxy silanes; and c) water; wherein the composition is useful as a primer useful with adhesives or coatings containing polymers having isocyanate functional groups, alkoxysilane functional groups or both. The composition may include one or more epoxyhydrocarbyl silanes. The composition may include one or more alkanols in sufficient amount to improve the volatilization of the liquid components away from substrate surface.

Several embodiments of the present technology are directed to bonding sheets having enhanced plasma resistant characteristics, and being used to bond to semiconductor devices. In some embodiments, a bonding sheet in accordance with the present technology comprises a base bond material having one or more thermal conductivity elements embedded therein, and one or more etched openings formed around particular regions or corresponding features of the adjacent semiconductor components. The bond material can include PDMS, FFKM, or a silicon-based polymer, and the etch resistant components can include PEEK, or PEEK-coated components.

A multilayer thermal insulator for an electric vehicle battery pack having a flexible multilayer wall multilayer wall including, a flame resistant outer laminate, a ceramic-based layer, and a pressure-sensitive adhesive layer. The ceramic-based layer is sandwiched between the flame resistant outer laminate and the pressure-sensitive adhesive layer. A filament fixes the flame resistant outer laminate, the ceramic-based layer, and the pressure-sensitive adhesive layer to one another.

The present invention relates to an easily constructed stone chip-preventing protection film attachable to the outside of an automobile windshield.

The easily constructed stone chip-preventing protection film attachable to the outside of an automobile windshield, according to the present invention, comprises: a substrate film layer (100); a surface coating layer (200) disposed on the substrate film layer (100); a protective film layer (300) disposed on the surface coating layer (200); an adhesive layer (400) disposed under the substrate film layer (100); and a release film layer (500) disposed under the adhesive layer (400).

By the construction described above, since the easily constructed stone chip-preventing protection film attachable to the outside of an automobile windshield, according to the present invention, includes a substrate film layer formed of a high elastic film to configure an automobile windshield protection film, the film can be gently attached and easily constructed without performing a heating process according to the shape of the windshield, so as to enhance the construction efficiency and prevent a stone chip from being caused by an impact of a small stone or a hard foreign substance.

The present invention relates to an easily constructed stone chip-preventing protection film attachable to the outside of an automobile windshield. The easily constructed stone chip-preventing protection film attachable to the outside of an automobile windshield, according to the present invention, comprises: a substrate film layer (100); a surface coating layer (200) disposed on the substrate film layer (100); a protective film layer (300) disposed on the surface coating layer (200); an adhesive layer (400) disposed under the substrate film layer (100); and a release film layer (500) disposed under the adhesive layer (400). By the construction described above, since the easily constructed stone chip-preventing protection film attachable to the outside of an automobile windshield, according to the present invention, includes a substrate film layer formed of a high elastic film to configure an automobile windshield protection film, the film can be gently attached and easily constructed without performing a heating process according to the shape of the windshield, so as to enhance the construction efficiency and prevent a stone chip from being caused by an impact of a small stone or a hard foreign substance.

Method of adhesively bonding two surfaces by means of a reactive adhesive film system comprising at least two adhesive films (F1 and F2), each comprising at least one reactive component (R1 and R2), adhesive bonding being effected by a reaction which requires the presence of both reactive components (R1 and R2),

wherein, prior to adhesive bonding, a separating layer (T) which is impermeable to the reactive components is provided between the adhesive films which are to be brought into contact with one another for the reaction,
and the separating layer (T) is removed at least in part by means of a laser in order to effect bonding,
so that the adhesive films (F1 and F2) come into direct contact with one another and the reaction begins in the presence of both reactive components (R1 and R2), and reactive adhesive film system for use in this method.

Disclosed are non-toxic adhesive compositions that are tunable for selective adhesion to an intended substrate under any number of conditions, including a fouled substrate. Methods of making and methods of using are also described.