The present invention relates to a nano thin-film transfer sheet comprising a permeable base, a soluble support layer, and a nano thin-film layer in this order, wherein the permeable base is a base which allows a solvent dissolving the soluble support layer to permeate or penetrate therethrough.

Stretchable elastic laminates having an improved cloth-like appearance, as well as methods of preparing the laminates, are disclosed herein. Particularly, the present disclosure is directed to methods of preparing tissue-elastic laminates with uniform tissue fractures as the laminate is stretched 50%, or even 100%, or more in at least one of the machine direction (MD) or cross direction (CD).

A high-CTI and halogen-free epoxy resin composition for copper-clad plates and uses thereof is provided. The formula of the high-CTI and halogen-free epoxy resin composition for copper-clad plates comprises 100140 parts of halogen-free phosphorous epoxy resin, 1035 parts of dicyclopentadiene phenolic epoxy resin, 3260 parts of benzoxazine, 15 parts of phenolic resin, 0.050.5 parts of accelerants; and 2570 parts of fillers, by weight. The copper-clad plates, prepared according to embodiments of the present invention, can reach the requirements of high CTI (CTI500V), high heat resistance (Tg150 C., PCT, 2 h>6 min) and the level of flame retardance of UL-94 V0, and they are widely used in the electronic materials of electric machines, electric appliances, white goods and so on.

A method for making a coated fabric includes the steps of: applying a coating solution of a resin in an organic solvent to a roller-conveyed non-stretchable and releasable substrate web to form a coating layer; laminating a roller-conveyed base fabric to the coating layer to form a laminate; guiding the laminate to pass through at least one tank containing water to immerse the laminate in water such that the coating layer is solidified and the organic solvent contained in the coating layer is replaced by water; and removing water from the coating layer by drying to leave micropores in the coating layer.

The present invention discloses an optical assembly. The optical assembly comprises: a first optical film having a first surface; an adhesive disposed on the first surface of the first optical film, wherein the adhesive comprises a photo-curable portion and a thermally-curable portion mixed with the photo-curable portion, wherein the weight ratio of the thermally-curable portion of the adhesive to the adhesive is less than 5%; and a second optical film comprising a photo-curable material, wherein the adhesive is bonded to the second optical film through the bonding between the photo-curable portion of the adhesive and the photo-curable material of the second optical film without relying on the bonding between the thermally-curable portion of the adhesive and the photo-curable material of the second optical film.

A photochromic polyurethane laminate that is constructed to solve certain manufacturing difficulties involved in the production of plastic photochromic lenses is disclosed. The photochromic laminate includes at least two layers of a resinous material and a photochromic polyurethane layer that is interspersed between the two resinous layers and which contains photochromic compounds. The polyurethane layer is formed by curing a mixture of a solid thermoplastic polyurethane, at least one isocyanate prepolymer, at least one photochromic compound, and a stabilizing system.

For a fiber-oriented material according to an embodiment, a fiber that is included in the fiber-oriented material is in a closely-adhered state, and a tensile strength has maxima in two or more tensile directions at angles in a range not less than 0 but less than 180 between the tensile directions and a line passing through a center of the fiber-oriented material.

The present invention provides a dual layer planter liner having: (a) a first fibrous layer having an interior surface and an exterior surface, the first fibrous layer is formed into a pot for emplacing a planting medium and/or plant therein. The first fibrous layer is formed from a first fibrous material; and a second fibrous material adhered onto the exterior surface of the first fibrous layer. The adhered second fibrous material forms a second fibrous layer. The present invention, also, provides a method for making the dual layer planter liner hereof.

An electronic component has an organic member between two transparent substrates, in which outer peripheral portions of the two transparent substrates are bonded by a sealing material containing low melting glass. The low melting glass contains vanadium oxide, tellurium oxide, iron oxide and phosphoric acid, and satisfies the following relations (1) and (2) in terms of oxides. The sealing material is formed of a sealing material paste which contains the low melting glass, a resin binder and a solvent, the low melting glass containing vanadium oxide, tellurium oxide, iron oxide and phosphoric acid, and satisfies the following relations (1) and (2) in terms of the oxides. Thereby, thermal damages to an organic element or an organic material contained in the electronic component can be reduced and an electronic component having a glass bonding layer of high reliability can be produced efficiently.
V.sub.2O.sub.5+TeO.sub.2+Fe.sub.2O.sub.3+P.sub.2O.sub.5?90 (mass %)(1)
V.sub.2O.sub.5>TeO.sub.2>Fe.sub.2O.sub.3>P.sub.2O.sub.5 (mass %)(2)

The present invention provides a polyimide precursor composition comprising an amic acid ester oligomer of Formula (1):

##STR00001##

and
a diamine of Formula (2) or (3):

##STR00002##

wherein G, P, R, R.sub.x, P, D, E and m are as defined herein.

The present invention also provides a dry film containing the polyimide precursor composition, as well as a polyimide film and polyimide laminate prepared from the composition.