A method of producing an anisotropic conductive film having a three-layer structure including a first connection layer, a second connection layer, and a third connection layer. The connection layers are each formed mainly of an insulating resin. The first connection layer is held between the second connection layer and the third connection layer.

An adhesive sheet according to the present invention is an adhesive sheet including a different material sheet configured to be flush with the rest of the adhesive sheet.

The present invention relates to a sandwich panel and a method of manufacturing the same. The sandwich panel according to the present invention has high density and improved physical properties such as flexural strength, flexural modulus, bending strength and lightening weighting ratio and is suitable for use in various consumer products or industrial materials.

To provide a water sealing adhesive film for decoration that can reduce or prevent the infiltration of water into an interface between an adhesive layer and an adherend even in an environment where the adhesive film can be contacted with water. A water sealing adhesive film for decoration according to an embodiment of the present disclosure includes: a substrate; and an adhesive layer having a structured surface and being disposed on the substrate, the adhesive layer containing a tacky binder having a crosslinked structure derived from a crosslinking agent, and a water absorbing resin.

The present invention relates to an adhesive sheet made of a fiber material, and a method for manufacturing same, the sticky adhesive mesh comprising mesh fabric, an ink layer printed on the upper surface of the mesh fabric, a first adhesive layer coated on the lower surface of the mesh fabric, an absorption layer stacked on the lower surface of the first adhesive layer, a second adhesive layer coated on the lower surface of the absorption layer, and release paper stacked on the lower surface of the second adhesive layer, wherein the mesh fabric is made of fabric woven by crossing wefts and warps and is formed to be porous by having gaps between the wefts and the warps, the first adhesive layer is formed to have a plurality of adhesive layers that are repeatedly coated to be stacked.

An adhesive film includes an adhesive film body, and a plurality of deformable particles dispersed in the adhesive film body. A volume of each of the plurality of deformable particles is capable of shrinking under a trigger condition.

The present application provides a pressure-sensitive adhesive layer comprising at least first and second regions having different physical properties, wherein the difference in physical properties, such as an elastic modulus or creep strain rate is maintained relatively large for each region, and the difference in physical properties, such as a peel force or recovery rate is maintained relatively small for each region.

The present application may provide a flexible device comprising a pressure-sensitive adhesive layer comprising at least first and second regions having different physical properties, wherein the difference in physical properties, such as an elastic modulus or creep strain rate, which are advantageous as the difference in physical properties between the regions increases, is maintained relatively large for each region, and the difference in physical properties, such as a peel force or recovery rate, which are advantageous as the difference in physical properties between the regions decreases, is maintained relatively small for each region.

A method of forming a display article includes dispensing a material onto a first substrate, and pre-curing the material to form a dam. The method includes depositing a liquid optically clear adhesive in a first pattern onto the first substrate such that the first pattern is spaced apart from the dam to form a coated first substrate. The method includes depositing the adhesive in a second pattern onto a second substrate to form a coated second substrate, and flipping the coated second substrate upside down. The method includes translating the coated first and second substrates towards one another to eliminate an air gap, contacting the first pattern and the second pattern at a plurality of single points, and compressing the first pattern and the second pattern to eliminate the air gap and air entrained between the coated first and second substrates.

Systems and methods are described for manufacturing an adhesive tape. An example method includes: providing a plurality of adhesive webs, wherein each web includes a hot melt adhesive adhered to a backing material; providing a fabric web having a fabric material; guiding a first adhesive web from the plurality of adhesive webs into a first position proximate a first side of the fabric web; guiding a second adhesive web from the plurality of adhesive webs into a second position proximate a second side of the fabric web; applying heat and pressure to form a web of the baffle tape in which the first adhesive web is bonded to the first side of the fabric web and the second adhesive web is bonded to the second side of the fabric web; and rewinding the web of the baffle tape into a roll.