▎ 摘　　要

NOVELTY - Graphene glass fiber comprises glass fiber prepared by taking glass balls or waste glass, placing selected glass balls or discarding glass into crusher, placing the broken glass in a high-temperature melting furnace and smelting, depending on the power of the high-temperature melting furnace, applying the product to wire drawing machine with precision performance, drawing the wire, bundling the fiber monofilament into turns by winding combination and forming the fiber strands, using fiber precursor and an applicator to apply a uniform lubricant on its surface and mixing the lubricant component comprising resin and oily liquid, thermally cleaning the fiber precursor liquid in the machine and separating the oily substance on the surface and subjecting the fiber precursor to electroless plating to attach a layer of copper-based product on its surface to increase its conductive effect. USE - As graphene glass fiber. ADVANTAGE - The graphene glass fiber is non-combustible, has high anti-corrosion performance than the existing technology, improves sound insulation performance and increases electrical conductivity and pull-up performance. DETAILED DESCRIPTION - Graphene glass fiber comprises glass fiber, which is wrapped on the surface of the graphene layer, and is prepared by (i) taking glass balls or waste glass, (ii) placing the selected glass balls or discarding glass into the crusher, where the crusher will break for 5-8 minutes at 800-1200 rpm to extract the broken glass fragments, (iii) placing the broken glass in a high-temperature melting furnace and smelting it at high temperature for 40-50 minutes, depending on the power of the high-temperature melting furnace, (iv) applying the product obtained in step (iii) to a wire drawing machine with precision performance, drawing the wire, where the glass product specification after drawing is 5-10 microns, which can be viewed with an optical microscope, (v) bundling the fiber monofilament prepared in step (iv) into turns by winding combination and forming the fiber strands, (vi) using fiber precursor obtained in step (v) and an applicator to apply a uniform lubricant on its surface and mixing the lubricant component comprising resin and oily liquid, (vii) thermally cleaning the fiber precursor liquid in the machine and separating the oily substance on the surface and (viii) subjecting the fiber precursor prepared in the step (vii) to electroless plating to attach a layer of copper-based product on its surface to increase its conductive effect.