▎ 摘　　要

NOVELTY - Super-hybrid conductive resin, comprises a resin microsphere emulsion (1), a curing agent (5) and a carbon nano material aqueous dispersion liquid, or a water-free resin obtained by removing water from the aqueous liquid dispersion system. The total content of the carbon nanomaterial (2) in the compositions without water (4) in the super-hybrid conductive resin is 1-25 wt.%, and the content of the resin microspheres and the curing agent is 50-99 wt.%. USE - Super-hybrid conductive resin used for prepreg and composite material (all claimed). ADVANTAGE - The composite material prepared by the system can reach the high conductivity and excellent lightning resistance of the conventional conductive modified resin. The resin is easy to permeate in the prepreg and composite material preparation process, so as to achieve the mutual fusion of each component, to satisfy the low-porosity composite material. The carbon nano material in the resin system reaches very high content, high uniformity dispersion. The super hybrid conductive resin does not pollute the environment. DETAILED DESCRIPTION - INDEPENDENT CLAIMS are included for: A super-hybrid conductive resin prepreg, which is obtained by dispersing an aqueous liquid system of the super-hybrid conductive resin onto unidirectional continuous fibers or continuous fiber fabrics through brushing, dipping, rolling and spraying, and then drying or naturally airing, rolling and packaging. A super-hybrid composite material, which is prepared from a super-hybrid electrically conductive resin or from a super-hybrid electrically conductive resin prepreg. A method for preparing a super-hybrid composite, which involves: adding deionized water into the resin microsphere emulsion, and uniformly stirring to obtain diluted resin microsphere aqueous emulsion; adding deionized water into the carbon nano-material aqueous dispersion liquid, and uniformly stirring to obtain diluted carbon nano-material aqueous dispersion liquid; slowly adding the diluted aqueous dispersion liquid of the carbon nano-material into the diluted aqueous emulsion of the resin microspheres, and uniformly mixing to obtain a mixed liquid; adding a curing agent into the mixed solution, and fully and uniformly stirring to obtain a water dispersion system of the super-hybrid conductive resin; preparing the aqueous dispersion system of the super-hybrid conductive resin into a carbon fiber prepreg of the super-hybrid conductive resin according to a prepreg forming process; laying the carbon fiber prepreg of the super-hybrid conductive resin to obtain a prefabricated body; and forming the prefabricated body obtained by laying the layers according to a composite material forming process to obtain the super-hybrid composite material. DESCRIPTION OF DRAWING(S) - The drawing shows a schematic composition diagram of a super-hybrid conductive resin. 1Resin microsphere emulsion 2Carbon nanomaterial 3Micro-nano particle 4Water 5Curing agent