Our Products
Polyurethane Epoxy Paints impart long-lasting polyurethane finish to the surface. The Polyurethane Epoxy Paints are formulated by incorporating innovative technology. They impart atmospheric, durable finishes to all atmospheric vessel and Industrial areas. We can provide Polyurethane Epoxy Paints in different packaging quantities.
Independent ApprovalPolyurethane Epoxy Paints has been tested to meet, and exceed, the highest international standards, such as ISO 12944, and NORSOK M501.Certified by DNV as a paint system with low-flame spread in compliance with IMO Solas and Marine Equipment Directive (MED).
Features
Benefits
We offer Acid Resistant Epoxy Paints that are concentrated sulfuric acid resistant. The Novolac Epoxy Coating For Concentrated Acids is based on advanced coating formula. Typically, the Acid Resistance Epoxy Paints Coating is a two - component, rigid, novolac epoxy coating with excellent resistance to concentrated sulfuric acid, other strong acids and bases, and many chemicals found in industrial environments. When seeded or blended with aggregate, it can be used on properly prepared concrete and steel substrates to provide a chemical resistant surface with excellent slip/skid resistance and wear characteristics. This product is ideally suited for use in containment areas requiring resistance to strong mineral acids, Acid Resistance Epoxy Paints will bond to prepare dry and damp concrete substrates and cures to a tough, blush free, tile like surface. When used outdoors, the coating is freeze/thaw resistant and will not embrittle, however it will acquire a chalky surface when exposed to sunlight. The standard color is concrete gray (tan gray).
Features
Limitations : Do not apply on wet substrates. Minimum installation and cure temperature is 50°F. Apply after daily substrate temperature has peaked. Substrates on or below grade must have a functioning vapor barrier to minimize the potential for blistering or delaminating of the applied coating. Broadcast aggregate must be resistant to the chemicals used in the exposure area and must be completely encapsulated by a topcoat. Exposure to 98% sulfuric acid will cause formation of a reddish surface film that can be removed by washing with water. Do not add solvents or otherwise thin this material.
Packaging & Colors : Package sizes of Part A + Part B are 3 and 15 gallons. Standard color is tan-gray; black, white and brick red custom colors available.
Shelf Life : Three years minimum in unopened, original containers when stored between 60 and 90° F in a dry place away from sunlight. Remixing of components may be required upon long-term storage.
Surface Preparation : Concrete surfaces may be dry or damp (not wet) though dry substrates are preferred and must be sound and free of all bond-inhibiting substances. Prepare surfaces in accordance with ASTM D 4259 or ACI 503R and ChemCo Systems' specific recommendations. Cleaned concrete surfaces should have a minimum strength of 250 psi in direct tension. Steel surfaces should be cleaned to "white metal" according to SSPC SP 5.
Mixing : Acid Resistance Epoxy Paints is a two-component system. The resin to hardener (Part A : Part B) mix ratio is 2 :1, by volume. Read all material safety data (MSDS) information before handling the product. Wear safety glasses and clean neoprene rubber gloves when handling the materials. Premix the individual components before use. Transfer appropriate quantities of Part A and Part B into a mixing container. Use quantities that can be applied before the pot life of the mixed material expires. Blend thoroughly using a Jiffy mixer blade attached to a low speed (350 - 750 rpm) electric or pneumatic drill. Proper mixing will take 2 - 3 minutes. In cold weather, pre-conditioning the components to 70-85°F will allow easier mixing and application.
Installing : The recommended applied thickness for floor and wall coatings is two coats minimum at 6 - 8 mils per coat. Apply in multiple thin coats rather than one thick coat using a stiff bristle brush, short nap roller, squeegee or two-component spray equipment. For optimum chemical resistance, 3 coats are recommended. Subsequent coats may be applied as soon as the previous coat is “touch” dry (6 - 7 hr @ 70°F). Avoid excessive cure times between coats. The recommended applied thickness for floor surfacings is single or multiple coats at 20 - 30 mils per coat. Pour mixed material onto the substrate and spread to the desired coverage with e V-notch trowel or squeegee. Aggregate, if used, must be broadcast onto the coating within 15 minutes of application. The recommended aggregate size is #20 x 40 or #30 x 50 mesh. Typical aggregate broadcast rates are .75 - 1.50 lb/sq ft.
Clean up : Excess mixed product is best removed from the work area end tools before it hardens. Use of rags and solvents such as acetone or heavy-duty detergents facilitate cleaning. Cured product may be removed from tools by soaking in an epoxy stripper.
Approximate Yield
Coating Thickness, mil | Square feet/gallon |
---|---|
6 | 267 |
15 | 105 |
20 | 80 |
25 | 64 |
30 | 53 |
Avail from us Food Grade Epoxy Paints that have low viscosity. The Food Grade Epoxy Paints result in 100% volume solids epoxy coating. Our specially formulated Food Grade Epoxy Paints comply with SSPC paint 42 specification. They are applicable over variety of substrates including Aluminum, Concrete, Glass, FRP, GRP etc.
When used as part of approved scheme, this material has following certifications
Theoretical Spreading Rates
Introduction to Food Grade Epoxy
Properties of Food Grade Epoxy
Examples of Applications
"Happy to inform you that we stock and trade in this Food Grade Epoxy Paints, we have observed visually and found satisfactory paint which was applied on condensate surface lines at our premises”
Food Grade Epoxy Paints – an innovative 100% solid multipurpose epoxy coating :
Applications
Heat Resistant Paints are single component, high temperature coatings, based on moisture curing silicone binder. On offshore facilities, there is a continuous demand for coatings that maintain their performance despite exposure to a variety of environmental conditions and various temperature fluctuations from the substrate. The Heat Resistant Paints are high performance coatings that effectively meet the latest requirements of the offshore industry. The coatings can be applied on pipes and steel surfaces as well as on process equipment. The Heat Resistant Paints protect the steel from the influences of thermal cycling, which is one of the extreme challenges faced by coating systems. For the protection of steels from corrosion on areas including flare stacks, chimneys, exhausts, vents, and pipework temperature up to 600°C. Some of the most challenging coatings situations that exist in industry today concern heat resistance. There is a continuous demand for coatings that can maintain their function despite exposure to the extremely high operational temperatures found in the power, offshore and petrochemical processing industries. We offer a range of high quality, Heat Resistant coatings developed specifically to meet this challenge, able to cope with extremes of temperature and deliver a dependable long-term performance for both new construction and maintenance alike.
Highlights
ApplicationsThe product is widely used in all key industry sectors, meeting the very demanding challenges required to protect major assets. All our coatings are manufactured in compliance with world-leading standards. Therefore, you can rely on a consistent performance from each and every coating. The application areas of Heat Resistant Paints are:
We offer two types of Fire Resistant Epoxy Paints – water based Fire Resistant Epoxy Paints and solvent based Fire Resistant Epoxy Paints. Water Based Fire Retardant Paints Flame Control No. 20-20A is a Class "A", interior, low VOC, water base, flat latex, fire retardant paint, manufactured in accordance with Federal Specification TT-P-001932. This coating dries quickly to a flat finish, having the appearance of a conventional flat latex paint. In the presence of heat or flame the coating puffs up (intumesces) and forms a thick, sponge like cellular foam layer; this foam layer insulates the substrate reducing the penetration of heat, thus retarding the flame spread and delaying structural failure.
Recommended Uses & Used By For application to all interior combustible surfaces where it is either necessary or desirous to reduce the surface burning characteristics of the substrate. Schools, Colleges, Nursing Homes, Child Care Centers, Hospitals, Penal Institutions, Apartments, Hotels, Factories, Warehouses, Retail Stores, Restaurants, Utilities, Railroad and other Transportation Companies, Oil and Chemical Installations, Military Installations, and other facilities wherefire retardant coatings are required.
Performance InformationFire Hazard Classification, ASTM E-84 (NFPA 255), Class “A”, Class "A" fire rated. Complies with federal, state, local building and fire code requirements. Dries by water evaporation to a tough, flexible, matte finish. Does not leach (lose fire retardancy) on exposure to high humidity. Meets all VOC regulations, including SCAQMD.