CHEMIC COMPTIBIITY EGEND = cceptable for all Wetted Parts = cceptable for ower Housing Only = Unacceptable or Insufficient Data PROCESS FUID cetic cid (Non-erated): <40%, 200 F cetic cid (Non-erated): >50%, 200 F cetic cid (erated): <50%, 200 F cetic cid (erated): 50%, 200 F cetic nhydride: 200 F cetone: 150 F cetylene - Dry: 100 %, 200 F 316 Stainless Steel 304 Stainless Carpenter 20 (lloy 20) crolein: 100 %, 200 F ir luminum Chloride: 150 F luminum Sulfate: 50%, 200 F luminum Sulfate: >50%, 200 F mmonia (nhydrous): 100%, 300 F mmonium cetate: 200 F mmonium Bicarbonate: 175 F mmonium Bromide: <20% mmonium Chloride: 50%, 200 F mmonium Hydroxide: 30%, 200 F mmonium Nitrate: 50%, 200 F mmonium Oxalate: 40%, 200 F mmonium Phosphate (Mono Basic) mmonium Phosphate (Di Basic) mmonium Phosphate (Tri Basic) mmonium Sulfate: 40%, 200 F myl cetate: 250 F niline: 100%, 200 F Beer: 200 F Benzene: 50%, 200 F Benzidine: 100%, 200 F Benzoic cid: 70%, 200 F Black iquor: 200 F Boric cid: 25% Bromine - Dry: 100 %, 200 F Bromine - Wet: 100 %, 200 F Bromobenzene: 100 %, 200 F Butadiene: 100 %, 200 F Butane: 200 F O-Ring Temperature imitations RJ Global - Page 60
CHEMIC COMPTIBIITY EGEND = cceptable for all Wetted Parts = cceptable for ower Housing Only = Unacceptable or Insufficient Data Butyl lcohol: 200 F PROCESS FUID Calcium Bisulfate: >90%, 250 F Calcium Carbonate: 100%, 200 F Calcium Chloride: <50%, 200 F Calcium Chloride: >50%, 200 F 316 Stainless Steel 304 Stainless Carpenter 20 (lloy 20) Calcium Hydroxide: <50%, 200 F Calcium Hypochlorite: 10 %, 75 F Calcium Sulfate: Saturated, 200 F Carbon Dioxide (Wet): 150 F Carbon Monoxide: 100%, 200 F Carbonic cid: 100%, 200 F Carbon Tetrachloride (Dry Or Wet): 200 F Cellulose cetate: 100%, 100 F Cellulose Nitrate: 100%, 200 F Chloric cid: 20% Chlorinated Water: <10PPM, 70 F Chlorinated Water: To Saturation, 70 F Chlorine - Dry: 100%, 200 F Chlorine - Wet: >90%, 160 F Chlorine - iquid nhydrous: Chloroacetic cid: <30%, 150 F Chloroform - Dry: 100%, 100 F Chromic cid: <30%, 200 F Citric cid: 50%, 200 F Citric cid: >50%, 200 F Copper Nitrate: <10%, 200 F Copper Sulfate: <30%, 200 F Creosote: 200 F Cresol: 100%, 200 F Crude Oil (Sour): 200 F Crude Oil (Sweet, ow Sulfur): 200 F Cupric Chloride: <40%, 200 F Dowtherm : 300 F Ethyl cetate: 200 F Ethyl lcohol: 200 F Ethyl Chloride - Dry: 100 %, 200 F Ethylene Dichloride: 100%, 200 F O-Ring Temperature imitations RJ Global - Page 61
CHEMIC COMPTIBIITY EGEND = cceptable for all Wetted Parts = cceptable for ower Housing Only = Unacceptable or Insufficient Data PROCESS FUID Ethylene Glycol: >40%, 200 F Ethylene Oxide: >50%, 200 F Ferric Chloride: <40%, 200 F Ferric Sulfate: <10%, 150 F Ferrous Chloride: <30%, 200 F Ferrous Sulfate: <50, 200 F Fluorine Gas, Dry: 100 %, 200 F 316 Stainless Steel 304 Stainless Carpenter 20 (lloy 20) Fluorosilicic cid: <30 %, 140 F Formaldehyde, 200 F Freon Gas (Wet) Fruit Juices Furfural: 10%, 200 F Gasoline: 200 F Glucose: 300 F Glycerine: 200 F Green iquor (NaOH): 200 F Green Sulfate iquor: 200 F Hexane - Dry: 100%, 200 F Hydrazine: 100 F Hydrobromic cid: 140 F Hydrochloric cid: <35 %, 100 F Hydrofluoric cid (ir Free): <50 %, 120 F Hydrofluosilic cid (Fluosilic cid): <30%, 140 F Hydrogen: 200 F Hydrogen Chloride (nhydrous): 500 F Hydrogen Chloride (Wet) Hydrogen Fluoride - Dry: 500 F Hydrogen Peroxide: <30 %, 200 F Hydrogen Sulfide: 140 F SG Kerosene: 100%, 200 F actic cid: <70%, 200 F Magnesium Chloride: 40%, 200 F Magnesium Sulfate: 40% 200 F Mercuric Chloride: <60%, 200 F Mercury: 100 %, 200 F Methane - Dry (No H 2 S): 200 F Methyl Ethyl Ketone: 100%, 120 F O-Ring Temperature imitations RJ Global - Page 62
CHEMIC COMPTIBIITY EGEND = cceptable for all Wetted Parts = cceptable for ower Housing Only = Unacceptable or Insufficient Data Milk PROCESS FUID Morpholine: 100%, 200 F Naphtha: 100%, 200 F Naphthalene: 100% Natural Gas: 150 F Nickel Chloride: <80%, 200 F Nickel Sulfate: 200 F 316 Stainless Steel 304 Stainless Carpenter 20 (lloy 20) Nitric cid: <95%, 100 F Nitrous Oxide: >97%, 100 F Oleic cid: 200 F Oxalic cid: <50%, 140 F Oxygen Gas: 120 F Ozone: <8%, 120 F Palmitic cid: 100%, 160 F Phenol: >90%, 120 F Phosgene - RT to HOT Phosphoric cid (erated): <50%, 125 F Phosphoric cid (ir Free): <50%, 125 F Phosphoric cid (erated): <25%, Boiling Phosphoric cid (ir Free): <25%, Boiling Picric cid: <10%, 200 F Polyvinylchloride Potassium Chloride: <30%, 200 F Potassium Hydroxide: 50%, 160 F Potassium Nitrate: 50%, 200 F Potassium NitrIte: 50%, 200 F Propane: 100%, 200 F Propylene Dichloride: 100% Propylene Oxide: 200 F Rosin: 200 F Sea Water: 200 F Sewage - Raw: 100 F Silver Nitrate (cid Free): <50%, 200 F Skydrol: 100%, 200 F Sodium Bicarbonate: <20%, 200 F O-Ring Temperature imitations Potassium Permanganate: 30%, 140 F Sodium Bisulfate: <30%, 200 F RJ Global - Page 63
Chemical Compatibility EGEND = cceptable for all Wetted Parts = cceptable for ower Housing Only = Unacceptable or Insufficient Data PROCESS FUID Sodium Bisulfite: <40%, 150 F Sodium Carbonate: <40%, 200 F Sodium Chloride: <30%, 200 F Sodium Chromate: <60%, 200 F Sodium Cyanide: 140 F Sodium Dichromate: <20, 140 F Sodium Hydroxide: <40%, 150 F 316 Stainless Steel 304 Stainless Carpenter 20 (lloy 20) Sodium Hydroxide: <70 %, 200 F Sodium Hypochlorite: <40%, 120 F Sodium Nitrate: 200 F Sodium Nitrite: <60%, 200 F Sodium Peroxide: <10%, 200 F Sodium Phosphate (Tribasic): <60 %, 200 F Sodium Silicate: 200 F Sodium Sulfate: <30%, 200 F Sodium Sulfide: <30%, 200 F Sodium Sulfite: <30%, 200 F Sodium Thiosulfate: 200 F Sour Gas / Oil: <5%, 200 F SG Stannous Chloride: <50%, 200 F Steam: Saturated, 500 F Stearic cid: 200 F Stoddard Solvent: 150 F Sulfur Dioxide - Wet: >95%, 140 F Sulfur Trioxide - Dry: 100%, 140 F Sulfuric cid: <50%, 200 F Sulfuric cid: 80-98%, 200 F Tannic cid: 150 F Tartaric cid: <50%, 150 F Tin Chloride: <10%, 200 F Toluene: 100%, 200 F Trichloroacetic cid: 50%, 200 F Turpentine: >98% 200 F Urea: <50%, 200 F Vinyl Chloride: 100%, 100 F White iquor: 140 F ylene: 100%, 200 F O-Ring Temperature imitations RJ Global - Page 64
Chemical Compatibility only as a general guide. See below for common COMMON CHEMIC NMES COMMON NME ISTED UNDER COMMON NME ISTED UNDER lum luminum Sulfate Dihydrogen Dioxide Hydrogen Peroxide lum Potash Potasium Hydroxide Dimethyl Ketone cetone mino Benzene niline Dimethyl Methane Propane Benzene Carboxylic cid Benzoic cid Epson Salts Magnesium Sulfate Benzine Benzol Gasoline Benzene Ethanoic cid Ethanoic nhydride cetic cid cetic nhydride Bischofite Magnesium Chloride Ethanol Ethyl lcohol Bituminus Bleach Bleaching Powder Solutions Creosote Sodium Hypochlorite Calcium Hypochlorite Ethyrene Fluosilic cid Formalin Butadiene Hydrofluosilic cid Formaldehyde Blue Copperas Boracic cid Copper Sulfate Boric cid Glaubers Salt Glycerol Sodium Sulfate Glycerine Bran Oil Furfural Glycol Ethylene Glycol Butanol Butyl lcohol Gypsum Calcium Sulfate 2 Butanone Methyl Ethyl Ketone Hydrogen Chloride Hydrochloric cid Caliche iquors Sodium Nitrate aughing Gas Nitrous Oxide Carbonyl Diamide Urea ime + Water Calcium Hydroxide Caustic ime Calcium Hydroxide MEK Methyl Ethyl Ketone Caustic Potash Potasium Hydroxide Methyl Benene Toluene Caustic Soda Sodium Hydroxide Muriatic cid Hydrochloric cid Chlorinated ime Calcium Hypochlorite Red Oil Oleic cid Chloroethane Vinyl Chloride Salt Peter Sodium Nitrate Coal Tar Creosote Soda sh Sodium Carbonate Dextrose Glucose Tar Camphor Naphthalene Dichloroethane Ethylene Dichloride ylol ylene Technical Notations proper material selection. This chart is intended only as a general guide. Every application must be properly evaluated by the user to ensure material compatibility. Factors such as temperature, pressure, impurities, velocity, chemical concentation, and chemical combinations can affect material corrosion resistance. Note 1: Sour Gas / Oil ( SG ) Sour Gas /Oil refers to a gas or oil application in which Hydrogen Sulfide (H 2 S) in present as an impurity. Sour gas and oil applications are subject to metal fatigue from corrosion stress cracking created by the Hydrogen Sulfide. These applications require stringent material standards which are legally required in most states to follow the guidelines of the National ssociation of Corrosion Engineers (NCE). NCE Material Requirement MR-01-75 details the required materials to be used in sour applications. Note 2: Inert Fill Fluid Required ( ) Inert fill fluids are required in applications with strong oxidizing agents. violent chemical reaction, fire, or explosion could occur if the diaphragm ruptured and an oxidizing agent came in contact with a non-chemically inert fill fluid. Halocarbon and Flurolube are both inert fill fluids. Inert fill fluids are required with ) dry or moist Chlorine, ETO, Oxygen, or Ozone B) concentrated Chlorine Dioxide, Hydrogen Peroxide, Nitric cid, Sodium Chlorate, Sodium Chlorite, Sodium Hypochlorite, and Sulfuric cid C) queous solutions with over 10% composition of and ending in any of the following: Bromate, Chlorate, Chlorite, Chromate, Hypochlorite, Dichromate, Nitrate, Nitrite, Perborate, Perchlorate, Permanganate, Persulfate, Perodate, Peroxide, and Perselenate. Note 3: Teflon Glass Filled Teflon is very similar in chemical compatibility to that of Virgin Teflon. void using Glass Filled Teflon in any application which may attack the glass fill. Do not use with caustics, hydrofluoric acid, or any fluorine based chemical service. RJ Global - Page 65