Production technology and performance characteristics of latex gloves

- Mar 28, 2019-

The rubber is first sliced through the rubber mixing machine, and then sent to the sol cylinder and the gasoline mixed sol after slicing. The sol is then emulsified and modulated to pump the latex tundish. The rubber solution dissolved in gasoline is sent from the top of the distillation column, distilled by steam heating, and the light component of gasoline is heated to gas phase, and the gas is mixed and cooled in the cold water of the oil and gas cooler. The oil and water mixture is further divided into oil water separator and oil water layer. The upper gas is recycled, the lower water is sent to the cooling tower to cool down, and then cooling the gas gasoline in the distillation column. The emulsion of the distillation column is stirred and modulated according to its own pressure, and then the centrifuge separates the latex from the glove, then it is used for coloring and filtering. The glove model is first cleaned by acid and alkali and cleaned by water. The washing model is first immersed in hot water and heated to immerse the coagulant and dry to dip. After the dipping, the oven is initially dried, the inner sheath of the fiber is added, and the hot water is sent to the oven for vulcanization and drying. After the gloves are released, they are inflated and examined, cryogenic, dry, washed, dehydrated, dried, and then packed to the finished goods warehouse.

1) the washing mold wastewater and glue containing wastewater from the production line of the production line; (2) the production process produces a small amount of ammonia; (3) the dust produced by the drying process; (4) the atmospheric pollutants such as SO2, NOx, particles and so on during the operation of the boiler; (5) the large amount of SO2, NOx, particles, and so on during the operation of the standby diesel generator set. Air pollutants; (6) waste generated during the production process; (7) sludge produced by sewage treatment stations.

Physicochemical, biological contact oxidation and activated carbon adsorption are used in the water treatment process. The technological process consists of mechanical grille, regulating tank, air flotation tank, biological contact oxidation pond, sedimentation tank, sand filter, activated carbon filter, fan room and so on. The exhaust gas treatment technology is used to remove dust from the mound dust remover, and then react with alkali containing water to remove dust.

Latex gloves are suitable for automobile manufacturing, battery manufacturing, FRP industry, aircraft assembly, aerospace, environmental cleaning and cleaning. Latex gloves are wear-resistant, resistant to puncture, acid base, oil, oil, and many solvents, and have extensive anti chemical properties, good oil proof effect, and certified by FDA. Latex gloves characteristics have unique fingertip texture design, greatly enhance grip strength, effectively prevent skidding; no palmprint patent design, uniform glue, enhance protection; unique hand design, cotton lining, to improve comfort.

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