Oxymethylene

G621 INGREDIENTS ETHYL ACETATE BUTYL ACETATE NITROCELLULOSE ISOPROPYL ALCOHOL ADIPIC ACID/NEOPENTYL GLYCOL/TRIMELLITIC ANHYDRIDE COPOLYMER ETHYL TOSYLAMIDE ACETYL TRIBUTYL CITRATE DIMETHYL SULFONE STEARALKONIUM HECTORITE ACRYLATES COPOLYMER OCTOCRYLENE SYNTHETIC FLUORPHLOGOPITE PROPYL ACETATE TRIBUTYL CITRATE TOSYLAMIDE/EPOXY RESIN DIMETHICONE CITRIC ACID HYDROGENATED ACETOPHENONE/OXYMETHYLENE COPOLYMER SILICA MAGNESIUM SILICATE AQUA / WATER / EAU OXIDIZED POLYETHYLENE BENZOPHENONE-1 ALUMINA COLOPHONIUM / ROSIN / COLOPHANE TIN OXIDE CAMELLIA SINENSIS LEAF EXTRACT PROPYLENE GLYCOL PHENOXYETHANOL SOLUBLE COLLAGEN CI 77002 / ALUMINUM HYDROXIDE TRISODIUM EDTA POTASSIUM SORBATE ALUMINUM HYDROXIDE [+/- MAY CONTAIN / PEUT CONTENIR CI 77891 / TITANIUM DIOXIDE MICA CI 77491, CI 77499 / IRON OXIDES CI 15850 / RED 7 LAKE CI 15850 / RED 6 LAKE CI 15880 / RED 34 LAKE CI 77120 / BARIUM SULFATE CI 19140 / YELLOW 5 LAKE CI 75470 / CARMINE CI 77163 / BISMUTH OXYCHLORIDE CI 77510 / FERRIC AMMONIUM FERROCYANIDE CI 77266 / BLACK 2 CI 42090 / BLUE 1 LAKE ] . D189992/5

In chemistry applications, although the polymer is often suitable for the majority of glassware work, it can succumb to catastrophic failure. An example of this would be using the polymer clips on hot areas of the glassware (such as a flask to column, column to head or head to condenser joint during distillation). As the polymer is sensitive to both chlorine and acid hydrolysis, it may perform very poorly when exposed to the reactive gases, particularly hydrogen chloride. Failures in this latter instance can occur with seemingly unimportant exposures from well sealed joints, and do so without warning and rapidly (the component will split or fall apart). This can be a significant health hazard as the glass may open or smash. Here, PTFE or a high grade stainless steel may be a more appropriate choice.

Oxymethylene

oxymethylene

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