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N <br />Composite Technology <br />R <br />ARCm CS2 <br />PRODUCT DATA SHEET <br />Description <br />An advanced composite formulated to protect concrete surfaces <br />from mild chemical attack. Il is normally applied at a thickness of <br />375 microns (15 mils) per coal. Non-shrinking, 100% solids. Color <br />is Light Gray <br />ARC CS2 is a low viscosity high performance composite coating <br />that can be easily applied by notched squeegee brush, roller, or <br />spray equipment. ARC CS2 yields excellent barrier properties for <br />long-term chemical resistance in immersion exposures. The <br />cured ARC CS2 provides a high gloss surface with unrivaled <br />adhesion to dry and wet concrete. <br />COMPOSITION -Polymer/Surface Modi/ied Mineral <br />Composite <br />Matrix -A two component, modified epoxy resin structure reacted <br />with a polyamidoamine curing agent. <br />Reinforcement-A proprietary blend of surface modified mineral <br />reinforcements designed to provide resistance to permeation, and <br />chemical attack. <br />Suggested Uses <br />• Water and Sewage Tanks • Water Intakes and Dams <br />• Secondary Containment • Cooling Towers <br />• Pipeline Coatings <br />• Clarifier Tanks • Industrial Floors ~ <br />Benefits <br />• Dramatically outlasts conventional paints and coatings. <br />• Long pot life allows for ease of use <br />• 100°h solids, no shrinkage on cure. <br />• Outstanding adhesion insures reliable performance. <br />• Can be lopcoated with ARC SUV for gloss retention in outdoor <br />applications. <br />Packaging <br />Material is available in two sizes: 4 and 16 liter kits. Each <br />package contains two pre-measured containers (Part A and Part <br />B). A mixing tool, brush and instructions for use are enclosed <br />with the 4 liter kit. The 16 liter kit contains only application <br />instructions. <br />Coverage <br />Based on a 375 p (15 mils) thickness <br />4 liters will cover 10 7 sq meters (113 sq. H.) <br />161iters will cover 42.7 sq. meters (452 sq. fl.) <br />To calculate the kilograms required for a given application use <br />the appropriate formula below: <br />1.3 (g/cc) x Area (m~) x Average Thickne.;s (mm) = kg <br />3.1 x Area (ft~) x Average Thickness (inchies) = kg <br />Chemical Resistance <br />Tested at 21°C (70°F). Samples cured 7 da~/s at 25°C (77°F). <br />1 =Continuous long term immersion <br />2 =Short termhnlermittent immersion <br />3 =Splash and spills with immediate cleanup, vapors <br />4 =Not recommended for direct contact <br />Acids <br />10 % Acetic 4 <br />10°h Hydrochloric 2 <br />20°h Hydrochloric 2 <br />10°k Sulfuric 2 <br />30 % Sulfuric 4 <br />5 % Nitric 3 <br />10 % Nitric 4 <br />10% Phosphoric 3 <br />50°h Phosphoric 4 <br />Alkalies 8 Bleaches <br />28°~ Ammonium Hydroxide 2 <br />10°~ Potassium Hydroxide 1 <br />50°,6 Potassium Hydroxide 2 <br />10°,G Sodium Hydroxide 1 <br />50% Sodium Hytlraxide 2 <br />fi°,6 Sodium Hypochlorite 2 <br />10% Hydrogen Peroxide 1 <br />Ofher Compounds <br />Bunker C 1 <br />Diesel Fuel 1 <br />Isopropyl Alcohol 1 <br />Kerosene 1 <br />Naphtha 1 <br />Salt Water 1 <br />Sewage 1 <br />Toluene 2 <br />Xylene 2 <br />Cured Density 1,3 g/cc 81 Ib/ cu.fl. <br />Tensile Adhesion Dry concrete (ASTM D 4541) 93 kg/cmZ 1320 psi <br />Wet concrete 53 kc/cm1 750 osi <br />Compression Strength (ASTM D 695) a80 kg/cm` 6800 psi <br />Tensile Strength (ASTM D 638) 150 kg/cm~ 2100 psi <br />Flexural Strength (ASTM D 7901 250 ka/cm~ 3600 osi <br />Glass Transition Temperature (ambient cure) (ASTM D) 50°C 120°F <br />Hardness Shore D (ASTM D 22401 85 <br />Vertical Sag Resistance ----------------- No sag <br />at 21 °C (70°F) and 375 p (15 mils) <br />Maximum Temperature Wet Service 52'C 125°F <br />(Dependent on service) Drv Service 93°C 200'F <br />