▎ 摘　　要

NOVELTY - The method involves mixing (S1) raw material, adding copper ion graphene pieces to the raw material of the borosilicate glass, and uniformly mixing the materials after stirring. The materials are heated and melted (S2) at a high temperature to obtain a glass liquid. The glass liquid is drawn (S3) into a tubular structure through a drawing process and cooled and formed. The magnetized, cooled glass tube is placed (S4) in the magnetization device, so that the copper ion graphene magnetic field in the glass tube wall is in a uniform direction, and the magnetic force is locked in the copper ion graphene. USE - Method for producing graphene production pipe. ADVANTAGE - The method reduces the chance of accumulation of graphene pellets within the conduit and reduces the need for pipeline cleaning, maintenance, and replacement. The method increases the stability of liquid or gas dispersion of graphene in the pipeline, directly improves production, and the quality of the produced product is stable and the effect is obvious. DESCRIPTION OF DRAWING(S) - The drawing shows a flowchart illustrating a method for producing graphene production pipe. (Drawing includes non-English language text) Step for mixing raw material, adding copper ion graphene pieces to the raw material of the borosilicate glass, and uniformly mixing the materials after stirring (S1) Step for heating and melting materials at high temperature to obtain glass liquid (S2) Step for drawing glass liquid into tubular structure through drawing process and cooled and formed (S3) Step for placing magnetized, cooled glass tube in magnetization device, so that copper ion graphene magnetic field in glass tube wall is in uniform direction (S4)