▎ 摘　　要

NOVELTY - The apparatus has a first insulator into which an induction coil (103) is inserted, first mold portion, an upper portion and a second mold portion in which the first mold portion is sequentially arranged, and a second insulator in which an induction coil is inserted. The first and second mold portions are carbon fibers chemically bonded to carbon nanomaterials, and is prepared by impregnating a polymer mixture prepared by mixing a polymer resin and a carbon nanomaterial and then cures the impregnated material. The amount of carbon nanomaterials chemically bonded to the carbon fibers in the first and second mold portions is less than 1 wt% with respect to the polymer resin. The carbon nanomaterials directly mixed with the polymer resin are less than 1 wt% of the polymer resin. The molding temperature of polymer composite material is set by induction heating the first mold portion and the second mold portion. The insulation material is a ceramic component. USE - Mold apparatus for forming fiber-reinforced polymer composite material. ADVANTAGE - The mold apparatus is expected to be rapidly heated or cooled by induction heating by introducing a dielectric material generating induced heat generated by high-frequency electromagnetic radiation, and economic efficiency is improved by shortening a molding cycle. The mold apparatus has improved durability by applying a durable polymer as a polymer resin to reduce the weight of the mold and retain excellent mechanical properties. DETAILED DESCRIPTION - An INDEPENDENT CLAIM is included for a method for forming a polymer composite material. DESCRIPTION OF DRAWING(S) - The drawing shows a schematic view of the mold apparatus for forming polymer composite material to which mold portion is applied. 101Mold portion 102Insulation material 103Induction coil 104Object to be formed