{"title":"Chemical Chart - Secondary Spill Containment Berm","description":"\u003cp\u003e\u003cb\u003e40 MIL POLYETHYLENE       CHEMICAL RESISTANCE \u003c\/b\u003e\u003cbr\u003e      \u003cbr\u003e      Use this Chart as a General Guide Only. Test each chemical first before       storing in plastic. The first letter of each pair represents the       resistance rating at 20 degrees Celsius; the second at 50 degrees Celsius.      \u003cbr\u003e      \u003cbr\u003e      E — No Damage after 30 days of constant exposure. \u003cbr\u003e      G — Little or no damage after 30 days of constant exposure. \u003cbr\u003e      F — Some effect after seven days of constant exposure. Depending on the       plastic, the effect may be cracking, crazing, and loss of strength or       discoloration. Solvents may cause softening, swelling and permeation       losses with HDPE; the solvent effects on these materials are normally       reversible. \u003cbr\u003e      N — Not recommended for continuous use. Immediate damage may occur.       Depending on the plastic, the effect will be severe cracking, crazing,       loss of strength, discoloration, deformation, dissolution or permeation       loss. \u003c\/p\u003e     \u003cp\u003e\u003cb\u003eEFFECTS OF CHEMICALS ON PLASTICS \u003c\/b\u003e\u003c\/p\u003e     \u003cp\u003e      Chemicals can affect the weight, strength, color, dimensions, flexibility       and surface appearance of plastics. The basic models of interaction that       cause these changes are: (1) chemical attack on the polymer chain, with       resultant reduction in physical properties, including oxidation reaction       of functional groups in, or on, the chain, with resultant reduction in       physical properties, including oxidation; reaction of functional groups,       in or on the chain; and depolymerization; (2) physical change, including       absorption of solvents, resulting in softening and swelling of the       plastic; permeation of solvent through the plastic; or dissolution in a       solvent; and (3) stress-cracking from the interaction of a       \"stress-cracking agent\" with molded-in or external stresses. \u003cbr\u003e      The reaction combination of compounds of two or more classes may cause a       synergistic or undesirable chemical effect. Other factors affecting       chemical resistance include temperature, pressure, internal or external       stresses (such as centrifugation), and length of exposure to and       concentration of the chemical. As temperature increases, resistance to       attack decreases. \u003c\/p\u003e      \u003ctable class=\"table-striped table-bordered table\"\u003e      \u003ctr\u003e\n\u003cth\u003eCHEMICAL VFPE \u003c\/th\u003e\n\u003cth\u003eCHEMICAL VFPE \u003c\/th\u003e\n\u003cth\u003eCHEMICAL VFPE \u003c\/th\u003e\n\u003c\/tr\u003e   \u003ctr\u003e \u003ctd\u003e Acetaldehyde GF \u003cbr\u003e      Acetamide, sat. EE \u003cbr\u003e      Acetic Acid, 5% EE \u003cbr\u003e      Acetic Acid, 50% EE \u003cbr\u003e      Acetone NN \u003cbr\u003e      Acetonitrile EE \u003cbr\u003e      Acrylonitrile EE \u003cbr\u003e      Adipic acid EE \u003cbr\u003e      Alanine EE \u003cbr\u003e      Allyl Alcohol EE \u003cbr\u003e      Aluminum Hydroxide EE \u003cbr\u003e      Aluminum Salts EE \u003cbr\u003e      Amino Acids EE \u003cbr\u003e      Ammonia EE \u003cbr\u003e      Ammonium Acetate, sat. EE \u003cbr\u003e      Ammonium Glycolate EE \u003cbr\u003e      Ammonium Hydroxide, 5% EE \u003cbr\u003e      Ammonium Hyrdoxide, 30% EE \u003cbr\u003e      Ammonium Oxalate EE \u003cbr\u003e      Ammonium Salts EE \u003cbr\u003e      n-Amyl Acetate EG \u003cbr\u003e      Amyl Chloride FN \u003cbr\u003e      Aniline EG \u003cbr\u003e      Banzaldehyde EE \u003cbr\u003e      Benzene NN \u003cbr\u003e      Benzoic Acid, sat. EE \u003cbr\u003e      Benzyl Acetate EE \u003cbr\u003e      Benzyl Alcohol FN \u003cbr\u003e      Bromine FN \u003cbr\u003e      Bromobenzene FN \u003cbr\u003e      Bromoform NN \u003cbr\u003e      Butadiene FN \u003cbr\u003e      n-Butyl Acetate EG \u003cbr\u003e      n-Butyl Alcohol EE \u003cbr\u003e      sec-Butyl Alcohol EE \u003cbr\u003e      tert-Butyl Alcohol EE \u003cbr\u003e      Butyric Acid FN \u003cbr\u003e      Calcium Hypochlorite, Sat. EE \u003cbr\u003e      Cabazole EE \u003cbr\u003e      Carbon Disulfide NN \u003cbr\u003e      Carbon tetrachloride GF \u003cbr\u003e      Cedarwood oil FN \u003cbr\u003e      Cellosolve Acetate EE \u003cbr\u003e      Chlorine, 10% in air EF \u003cbr\u003e      Chlorine, 10% (moist) GF \u003cbr\u003e      Chloroacetic Acid EE \u003cbr\u003e      p-Chloroacetophenone EE \u003cbr\u003e      Chloroform FN \u003cbr\u003e      Chromic Acid, 10% EE \u003cbr\u003e      Chromic Acid, 50% EE \u003cbr\u003e      Cinnamon Oil FN \u003cbr\u003e      Citric Acid, 10% EE \u003cbr\u003e      Cresol FN \u003cbr\u003e      Cyclohexane FN \u003cbr\u003e\n\u003c\/td\u003e     \u003ctd\u003eDeCalin EG \u003cbr\u003e      o-Dichlorobenzene FF \u003cbr\u003e      p-Dichlorobenzene GF \u003cbr\u003e      Diethyl Benzene FN \u003cbr\u003e      Diethyl Ether FN \u003cbr\u003e      Diethyl Ketone NN \u003cbr\u003e      Diethyl Malonate EE \u003cbr\u003e      Diethylene Glycol EE \u003cbr\u003e      Diethylene Glycol Ethyl Ether EE \u003cbr\u003e      Dimethyl Formamide EE \u003cbr\u003e      Dimethylsulfoxide EE \u003cbr\u003e      1,4-Dioxane GG \u003cbr\u003e      Dipropylene Glycol EE \u003cbr\u003e      Ether FN \u003cbr\u003e      Ethyl Acetate EE \u003cbr\u003e      Ethyl Alcohol (absolute) EE \u003cbr\u003e      Ethyl Alcohol, 40% EE \u003cbr\u003e      Ethyl Benzene GF \u003cbr\u003e      Ethyl Benzoate GG \u003cbr\u003e      Ethyl Butyrate GF \u003cbr\u003e      Ethyl Chloride, liquid FN \u003cbr\u003e      Ethyl Cyanoacetate EE \u003cbr\u003e      Ethyl Lactate EE \u003cbr\u003e      Ethylene Chloride GF \u003cbr\u003e      Ethylene Glycol EE \u003cbr\u003e      Ethylene Glycol Methyl Ether EE \u003cbr\u003e      Ethylene Oxide GF \u003cbr\u003e      Fluorides EE \u003cbr\u003e      Fluorine GN \u003cbr\u003e      Formaldehyde, 10% EE \u003cbr\u003e      Formaldehyde, 40% EE \u003cbr\u003e      Formic Acid, 3% EE \u003cbr\u003e      Formic Acid, 50% EE \u003cbr\u003e      Formic Acid, 98-100% EE\u003cbr\u003e      Freon TF EG \u003cbr\u003e      Fuel Oil GF \u003cbr\u003e      Gasoline GG \u003cbr\u003e      Glacial Acetic Acid EE \u003cbr\u003e      Glycerine EE \u003cbr\u003e      n-Heptane GF \u003cbr\u003e      Hydrochloric Acid, 1-5% EE \u003cbr\u003e      Hydrocloric Acid, 20% EE \u003cbr\u003e      Hydrochloric Acid, 35% EE \u003cbr\u003e      Hydrofluoric Acid, 4% EE \u003cbr\u003e      Hydrofluoric Acid, 48% EE \u003cbr\u003e      Hydrogen Peroxide, 3% EE \u003cbr\u003e      Hydrogen Peroxide, 30% EE \u003cbr\u003e      Hydrogen Peroxide, 90% EE \u003cbr\u003e      Isobutyl Alcohol EE \u003cbr\u003e      Isopropyl Acetate EG\u003cbr\u003e      Isopropyl Alcohol EE \u003cbr\u003e      Isopropyl Benzene GF \u003cbr\u003e      Kerosene GG \u003cbr\u003e      Lactic Acid, 3% EE \u003cbr\u003e      Lactic Acid, 85% EE \u003cbr\u003e\n\u003c\/td\u003e      \u003ctd\u003eMethoxyethyl Oleate EE \u003cbr\u003e      Methyl Alcohol EE \u003cbr\u003e      Methyl Ethyl Ketone NN \u003cbr\u003e      Methyl Isobutyl Ketone NN \u003cbr\u003e      Methyl Propyl Ketone EG \u003cbr\u003e      Methylene Chloride FN \u003cbr\u003e      Mineral Oil EE \u003cbr\u003e      Nitric Acid, 1-10% EE \u003cbr\u003e      Nitric Acid, 50% GN \u003cbr\u003e      Nitric Acid, 70% GN \u003cbr\u003e      Perchloroethylene NN \u003cbr\u003e      Phenol, Chrystals GF \u003cbr\u003e      Phosphoric Acid, 1-5% EE\u003cbr\u003e      Phosphoric Acid, 85% EE \u003cbr\u003e      Pine Oil EG \u003cbr\u003e      Potassium Hydroxide, 1% EE \u003cbr\u003e      Potassium Hydroxide, conc. EE \u003cbr\u003e      Propane Gas FN \u003cbr\u003e      Propylene Glycol EE \u003cbr\u003e      Propylene Oxide EE \u003cbr\u003e      Resorcinol, sat. EE \u003cbr\u003e      Resorcinol, 5% EE \u003cbr\u003e      Salicylaldehyde EE \u003cbr\u003e      Salicylic Acid, powder EE \u003cbr\u003e      Salicylic Acid, sat. EE \u003cbr\u003e      Salt Solutions, metallic EE \u003cbr\u003e      Silver Acetate EE \u003cbr\u003e      Silver Nitrate EE \u003cbr\u003e      Sodium Acetate, sat. EE \u003cbr\u003e      Sodium Hydroxide, 1% EE \u003cbr\u003e      Sodium Hydroxide, 50% to sat EE \u003cbr\u003e      Sodium Hypochlorite, 15% EE \u003cbr\u003e      Stearic Acid, crystals EE \u003cbr\u003e      Sulfuric Acid, 1-6% EE \u003cbr\u003e      Sulfuric Acid, 20% EE \u003cbr\u003e      Sulfuric Acid, 60% EE \u003cbr\u003e      Sulfuric Acid, 98% GG \u003cbr\u003e      Sulfur Dioxide, liq., 46psi FN \u003cbr\u003e      Sulfuric Dioxide, wet or dry EE \u003cbr\u003e      Sulfur Salts GF \u003cbr\u003e      Tartaric Acid EE \u003cbr\u003e      Tetrahydrofuran GF \u003cbr\u003e      Thionyl Chloride NN \u003cbr\u003e      Toluene GG \u003cbr\u003e      Tributyl Citrate EG \u003cbr\u003e      Trichloroethane FN \u003cbr\u003e      Trichloroethylene FN \u003cbr\u003e      Triethylene Glycol EE \u003cbr\u003e      Tripropylene Glycol EE \u003cbr\u003e      Trupentine GG \u003cbr\u003e      Undecyl Alcohol EG \u003cbr\u003e      Urea EE \u003cbr\u003e      Vinylidene Chloride FN \u003cbr\u003e      Xylene GF \u003cbr\u003e      Zinc Stearate EE \u003c\/td\u003e\n\u003c\/tr\u003e\n\u003c\/table\u003e      \u003cp\u003e \u003c\/p\u003e\u003cp\u003e \u003c\/p\u003e      \u003ch4\u003eThank You for Shopping at AbsorbentsOnline.com!\u003c\/h4\u003e","products":[],"url":"https:\/\/absorbentsonline.myshopify.com\/collections\/chemical-chart-secondary-spill-containment-berm.oembed","provider":"AbsorbentsOnline","version":"1.0","type":"link"}