Patent ID: 8742263
Filing Date: 2014-06-03
Classification: H01B,H01R

Abstract:
1. A method for producing an anisotropically conductive member, comprising, at least: (1) an anodizing treatment step in which an aluminum substrate is anodized to form an anodized film; (2) a perforating treatment step in which micropores formed by anodization are perforated after the anodizing treatment step to obtain a microstructure; (3) a conductive material filling step in which a conductive material is filled into through micropores in the resulting microstructure after the perforating treatment step to form the conductive paths; (4) a conductive path-protruding step in which the conductive paths are protruded from a front surface or back surface of the microstructure after the conductive material filling step to obtain an anisotropically conductive member precursor; (5) a resin coating step in which at least part of the front surface or the back surface of the anisotropically conductive member precursor is coated with a solvent-soluble resin after the conductive path-protruding step; (6) a film removal step in which the anodized film of the anisotropically conductive member precursor is removed after the resin coating step; (7) a resin filling step in which a portion in which the anodized film was formed is filled with a solvent-insoluble resin after the film removal step to form the insulating base; and (8) a resin removal step in which the solvent-soluble resin is removed after the resin filling step to obtain the anisotropically conductive member, wherein the anisotropically conductive member comprises an insulating base and a plurality of conductive paths made of a conductive material, insulated from one another, and extending through the insulating base in a thickness direction of the insulating base, one end of each of the conductive paths protruded on one side of the insulating base, the other end of each of the conductive paths exposed or protruded on the other side thereof, and wherein the insulating base is made of a resin material and the conductive paths are formed at a density of at least 1,000,000 conductive paths/mm