▎ 摘　　要

NOVELTY - Graphene glass comprises 60-80 pts. wt. of quartz sand, 6-8 pts. wt. of limestone, 20-40 pts. wt. of soda ash, 7-9 pts. wt. of feldspar, 40-60 pts. wt. of decolorant, 30-50 pts. wt. of clarifying agent, 25-35 pts. wt. of calcite, 50-60 pts. wt. of borax, 10-20 pts. wt. of zeolite, 20-40 pts. wt. of toughened masterbatch and 50-70 pts. wt. of graphene powder. USE - Graphene glass. ADVANTAGE - The graphene glass improve the toughness and impact resistance of the finished product through the provision of toughened masterbatches, and zeolite provided only helps to improve the crack resistance of the organic glass, and also improves the overall stress performance and high bonding strength. It can prevent the glass from splashing around after the glass is broken, which helps to improve the safety performance of the whole glass, and graphene glass prepared by the above technical scheme is relatively thin, and has high compressive and impact resistance performance, at the same time its high strength, not easy to damage, and its high toughness, high bending resistance, not easy to break damage, long life, high safety, and greatly improving its practicality. DETAILED DESCRIPTION - An INDEPENDENT CLAIM is included for a method for preparing graphene glass, which involves: (A) taking out out the raw materials of quartz stone, limestone, feldspar, calcite, borax and zeolite, and respectively putting them into a pulverizer for pulverization to obtain a pulverized raw material; (B) putting the pulverized raw materials into the ultrasonic cleaning machine for cleaning, dry them after cleaning, and then performing iron removal operation on the dried raw materials to obtain clean pulverized raw materials; (C) putting the clean and pulverized raw materials into the grinder for grinding, and filter the ground raw materials through a 200-mesh filter to obtain powdery raw materials; (D) taking out the prepared powdery raw materials, and putting obtained raw materials into a mixer and stirring until the mixture is uniform, hence obtaining a mixture A; (E) taking out 60 pts. wt. polypropylene, 20 pts. wt. toughening agent and 0.2 pts. wt. antioxidant, and putting the taken out raw materials into a blender and stirring until the mixture is uniform, and putting mixture obtained by stirring into a screw extruder, and is heating to be extruded and granulated to obtain a toughened master batch; (F) taking out 30 pts. wt. toughened masterbatch, putting it into a grinder for grinding, and filtering through a 200-mesh filter to obtain a powdered toughened masterbatch; (G) taking out the mixture A and the powdery toughened master batch prepared, and putting them into a blender and stir until they are uniformly mixed to obtain mixture B; (H) putting the mixture B into the mixer, and adding an appropriate amount of deionized water to the inside of the mixer to stir, and adding 50 pts. wt. decoloring agent and 40 pts. wt. clarifying agent to the mixer in sequence, and after stirring for 10 minutes, adding 60 pts. wt. graphene powder to the inside of the mixer until the mixture is uniform, hence obtaining mixed slurry A; (I) filtering mixed slurry through a filter to remove the granular material, hence obtaining a mixed slurry B; (J) putting the mixed slurry B into a vacuum dryer for drying to obtain a composite powder; and (K) putting the composite powder into a kiln for heating to obtain a melt, and putting the melt into a mold for casting and forming, and putting formed glass into an annealing device to be annealed and cooling to obtain a graphene glass.