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a'Wad Lhast <br /> Hydrated Lime—February 2,2018 <br /> Partition coefficient: Relatively insoluble <br /> Auto-ignition Temperature: N/A <br /> Decomposition Temperature: 580'C / 1076'F <br /> Viscosity: N/A <br /> SECTION 10 STABILITY AND REACTIVITY <br /> Reactivity: <br /> Chemical Stability: Hydrated Lime is chemically stable. <br /> Possibility of Hazardous Reactions: See reactivity above <br /> Conditions to Avoid: Do not allow Hydrated Lime to come into contact with incompatible <br /> materials. <br /> Incompatible Materials: Hydrated Lime should not be mixed or stored with the following <br /> materials, due to the potential for violent reaction and release of heat: <br /> Acids (unless in a controlled process) <br /> Reactive Fluoridated Compounds <br /> Reactive Brominated Compounds <br /> Reactive Powdered Metals <br /> Organic Acid Anhydrides <br /> Nitro-Organic Compounds <br /> Reactive Phosphorous Compounds <br /> Interhalogenated Compounds <br /> Hazardous Decomposition Products: None <br /> SECTION 11 TOXICOLOGICAL INFORMATION <br /> Health Effects: see First Aid discussion in Section 4 <br /> Routes of Exposure: see First Aid discussion in Section 4 <br /> Symptoms Related to Exposure: see First Aid discussion in Section 4 <br /> Carcinogen Listing: Hydrated Lime is not listed by MSHA, OSHA, or IARC as a carcinogen,but <br /> this product contains crystalline silica, which has been classified by IARC as (Group 1) <br /> carcinogenic to humans when inhaled. <br /> SECTION 12 ECOLOGICAL INFORMATION <br /> Ecotoxicity: Because of the high pH of this product, it would be expected to produce <br /> significant ecotoxicity upon exposure to aquatic organisms and aquatic systems in <br /> high concentrations. <br />