▎ 摘 要
NOVELTY - Graphene modified latex comprises 100 pts. wt. latex, 2-4 pts. wt. potassium hydroxide, 0.8-1.6 pts. wt. sulfur, 1.6-2.4 pts. wt. zinc oxide, 0.5-1.2 pts. wt. accelerator, 1.4-2.2 pts. wt. titanium pigment, 0.01-0.05 pts. wt. dispersant, 10-50 pts. wt. graphene, 0.4-1 pts. wt. antiaging agent, 2-6 pts. wt. black pigment and 4-8 pts. wt. cellulose. USE - The latex is useful for conducting gloves. ADVANTAGE - The method is simple and easy, does not need rigorous condition. The conductivity of the latex is endowed with excellent conductivity by using the conductivity of the graphene. The glove prepared by the gum dipping process has excellent conductivity, wear-resistant and durable and comfortable. DETAILED DESCRIPTION - INDEPENDENT CLAIMS are also included for: (1) preparing the latex, comprising combining latex, potassium hydroxide, sulfur, zinc oxide, accelerator, anti-aging agent, black pigment and cellulose, placing in a high-speed mixer for mixing at a stirring speed of 2000-2500 revolutions/minute for 20-30 minutes to obtain the first mixture, grinding the graphene, and dispersing the grinded graphene and the dispersant by ultrasonic at high speed, where the ultrasonic frequency is 30-35 KHz, the dispersion speed is 4000-5000 revolutions/minute, and the dispersion time is 40-50 minutes to obtain the second mixture, dispersing the titanium dioxide, the first mixture and the second mixture at high speed by ultrasonic, the ultrasonic frequency is 24-30KHz, the dispersion speed is 4000-4800 revolutions/minute, and the dispersion time is 30-50 minutes and allowing to stand for 12-24 hours; and (2) a method for preparing conductive gloves, comprises (1) placing the hand mold on the selected glove core, and placing the hand mold with the glove core in the oven to preheat, (2) at room temperature, immersing the hand mold covered with the glove core in the coagulant to homogenize, (3) immersing the hand mold in the graphene modified latex at room temperature to homogenize the glue, (4) curing, (5) presulfurization, foam washing and vulcanization, and (6) demolding.