| 摘要 |
PURPOSE:To retain high conductivity for a long duration by vacuum-molding a composite laminated body, in which an electron conjugate-type polymer layer is formed, on the surface periphery of at least one side of a thermally plastic synthetic resin substrate. CONSTITUTION:An oxidation-polymerizer having a dopant function or an oxidation- polymerizer solution containing a dopant is supplied to a treatment tank 1 through an oxidation-polymerizer solution supplying inlet 3 and a synthetic resin substrate 7 to be made conductive is immersed in it. Then, a prescribed monomer solution is supplied from a monomer supplying inlet 2 and after stirring is carried out quickly using a stirrer 4 and while stirring is carried out continuously and the synthetic resin substrate 7 is immersed and maintained in a treatment solution 8, the treatment solution 8 is brought into contact with the surface of the synthetic resin substrate 7 to be made conductive and the monomer is polymerized in the presence of the dopant to produce an electron-conjugate polymer. Consequently, a conducive laminated body of the synthetic resin substrate 7 to be made conductive which is impregnated with the electron conjugate polymer in the surface periphery is obtained. The conductive thermally plastic synthetic resin substrate obtained in this way is set in a vacuum- molding machine and vacuum-molded. As a result, good conductivity is retained for a long duration. |
