▎ 摘　　要

NOVELTY - The method involves attaching a polyimine film with a graphene area of a cathode metal plate. A material to be processed is fixed above a metal plate to be treated. The metal plate is respectively connected to an anode and a cathode of a power supply (16), where a gap between a material (11) to be performed and a metal board (12) is jet electrolyte. Electrochemical treatment process is realized. A lower surface corresponding to the graphene area of the material is reduced. Size and conductivity of the graphene area is controlled. USE - Flexible PI film conductive characteristic laser localization control based electrolytic processing method. ADVANTAGE - The method enables realizing the directional shielding and passing of the electric field so as to realize the electrolytic reducing material in the appointed area of the anode workpiece, at the same time, using the PI film with flexible property, realizing electrolytic processing on the non-planar structure at same time of realizing different requirements of the processing. The method is simple and easy, and can finish the area size, depth can be controlled and the processing of the workpiece surface. DETAILED DESCRIPTION - An INDEPENDENT CLAIM is included for a flexible PI film conductive characteristic laser localization control based electrolytic processing device. DESCRIPTION OF DRAWING(S) - The drawing shows a cross-sectional view of a flexible PI film conductive characteristic laser localization control based electrolytic processing device. Laser source (1) Mechanical grating (2) Beam expanding lens (3) Reflector (4) Vibrating mirror (7) Lens (8) Metal needle (10) Processing material (11) Cathode metal plate (12) Current probe (13) Oscilloscope (14) Computer (15) Direct current pulse power supply (16) Control card (17) Special clamp (18) Electrolyte tank (19) Fine adjusting screw (20) Supporting base (21) Locking screw (22)