Fiberglass Cable Tray & Channel Application Environments Corrosion Resistance In most applications fiberglass cable tray is used because Chemical Environment Fiberglass Performance Polyester Vinyl Ester
Chemical Environment
Fiberglass Performance Polyester Vinyl Ester
of its superior corrosion resistance. The following corrosion resistance guide offers performance recommendations for the most common environments. Additional data for less common environments are also available from the factory. Corrosion Resistance Guide The general guidelines presented in this table take into consideration the normal applications of cable tray products and accessories where exposure to harsh chemicals is limited to fumes or vapors and occasional splashes at ambient temperatures. This information is provided as a guide only since it is impossible to anticipate every conceivable application. scope of these guidelines, it is recommended that the factory be consulted directly. Special applications may require a screening test of material samples in the chemical environment of interest. Notes: S - indicates satisfactory performance. NR - indicates not recommended for use. However, acceptable performance may be provided if fumes are not highly concentrated. NA - indicates information not available. For specific applications, which may fall out of the
Acetic Acid
S
S
Chlorinated Paraffin Chlorine, dry gas Chlorine, wet gas Chlorine, liquid Chlorine Dioxide Chlorine Water Chlorobenzene Chromic Acid Chromous Sulfate
S S
S S S
Acetone
NR NR
NR
Acrylic Acid
S S S S S S S S S
NR NR NR
Aluminum Chloride
S S S S S S S S
NR
Aluminum Chlorohydroxide
S S
Aluminum Citrate Aluminum Hydroxide Aluminum Nitrate
S
NR NR
NR
S S S S S S S S S
Aluminum Potassium Sulfate
S S S S S S S S
Aluminum Sulfate Ammonia, dry gas Ammonia, liquid
Citric Acid Coconut Oil
NR NR NR
NR
Copper Acetate Copper Chloride Copper Cyanide Copper Nitrate Copper Sulfate
Ammonium Acetate Ammonium Carbonate Ammonium Chloride Ammonium Citrate Ammonium Hydroxide Ammonium Nitrate Ammonium Phosphate Ammonium Sulfate Ammonium Sulfide Ammonium Sulfite Ammonium Thiosulfate
S S S S S S S S
S S
NR
Cresylic Acid Fumes
NR NR
NR NA
S S S
Cresol
Crude Oil (Sour)
S
S S S S S S S S S
Cyclohexane
NR
NR NR NR NR
NA
Diallylphthalate
S
S S
Diammonium Phosphate
NR NR
Dibutyl Ether
Amyl Acetate Amyl Alcohol Amyl Chloride Aniline Sulfate
NR
Dibutyl Phthalate
S S S
S
S
Diesel Fuel
NR
NA
Diethylene Glycol Dimethyl Phthalate Dimethyl Sulfoxide
S S S S S S S
S S S S S
NR NR NR
Barium Acetate Barium Carbonate Barium Chloride Barium Sulfate
NA
Diphenyl Ether
S S S S S S S S S S S S S S S S S
Dipropylene Glycol Esters, Fatty Acid
S S
Benzene
NR
Ethyl Alcohol
NR NR
Benzoic Acid Benzyl Alcohol
S
Ethylene Chlorohydrin
NR
NR
Ethylene Glycol
S S S S S S S S S
Borax
S S S
S S S S S
Fatty Acids
Boric Acid
Ferric Chloride Ferric Nitrate Ferric Sulfate Ferrous Chloride Ferrous Nitrate Ferrous Sulfate Fluoboric Acid Fluosilicic Acid Formic Acid, vapor
Brine
Bromine, dry gas Bromine, wet gas Bromine, liquid Butyl Acetate
NR NR NR NR
NR NR
Butyl Alcohol, normal
S S S S S S S S S S S S
S
Butyl Cellosolve Butylene Glycol
NR
NR
S S S S S S S S S S
S S
Butyric Acid
Fuel Oil Furfural
Calcium Bisulfite Calcium Carbonate Calcium Chlorate Calcium Chloride
NR
NR
Gasoline, Aviation
S S S S S
S S S S S
Gasoline, Ethyl Gluconic Acid
Calcium Nitrate Calcium Sulfate Caprylic Acid
Glucose Glycerine
Hexachlorocyclopentadienl
NR
NA
Carbon Dioxide, gas
Hydrochloric Acid Hydrofluoric Acid
S
S
Carbon Disulfide Carbonic Acid
NR
NR NA
NR
S S
Hydrogen Bromide, dry gas Hydrogen Chloride, dry gas Hydrogen Chloride, wet gas Hydrogen Fluoride, vapor
S S S
S S S S
Carbon Monoxide, gas Carbon Tetrachloride
S
NR NR
NR
Chloroacetic Acid
S
NR
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