Below is only a summary of product data. Please download the product datasheet for complete details. English: Product Data MSDS Spanish: Product Data MSDS French: Product Data MSDS
| Generic Type | Modified Polyamine Epoxy | ||||||
|---|---|---|---|---|---|---|---|
| Common Usage | A clear finish with an orange peel texture for diffusing light and reducing glare. Used as an optional finish for decorative color quartz or flake filled flooring systems. Coves and Vertical Surfaces: Series 285 can be used to build grout and seal vertical surfaces such as 4” base and wainscot. |
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| Colors | Clear. Note: Epoxies chalk and yellow with age, extended exposure to UV and artificial lighting. Caution should be taken when selecting white and light pastel colors. Lack of ventilation, incomplete mixing, miscatalyzation or the use of heaters that emit carbon dioxide and carbon monoxide during application and initial stages of curing may cause amine blush, possibly affecting adhesion of subsequent topcoats. | ||||||
| Finish | Orange Peel | ||||||
| Intermediate | Series 284 Note: Series 222, 223, 224, 237, 238 should be coated with 285 only after a grout coat of 284 has been applied. | ||||||
| Topcoats | Series 247, 248, 294, 295, 296 | ||||||
| Volume Solids | 100% (mixed) | ||||||
| Recommended DFT | 4.0 to 6.0 mils (100 to 150 microns) per coat. | ||||||
| Curing Time |
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| Volatile Organic Compounds | Unthinned: 0.17 lbs/gallon (20 grams/litre) | ||||||
| Theoretical Coverage | 1,604 mil sq ft/gal (36.2 m²/L at 25 microns). See APPLICATION for coverage rates. | ||||||
| Number of Components | Two: Part A and Part B |
The products listed below are not exact equivalents. They are only products that you may consider as alternatives in a general sense. Substrate type, condition, temperatures, surface preparation, primer/topcoat selection and intended use are just a few factors that will affect product selection. Please contact your local Tnemec Coatings Consultant for product recommendations.
| This ProductModified Polyamine Epoxy | ||||||||
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Modified Novolac Polyamine Epoxy
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The chemical resistance data listed on this website should only be used for general reference purposes. Substrates, temperatures, chemical combinations, and other variables can affect the performance of a coating in chemical exposure. Please contact your local Tnemec Coatings Consultant to finalize the most appropriate system for your project.
*Results are NOT suitable for direct or indirect food contact. Intended use exposure results relate to product's performance and substrate protection capabilities only.
| Chemical | Recommended Use |
|---|---|
| Acetaldehyde | NT |
| Acetic Acid (10%) | FC, OC |
| Acetic Acid (30%) | FC, OC |
| Acetic Acid, Glacial | FC, OC |
| Acetic Anhydride | NT |
| Acetone | FC, OC |
| Acetyl Chloride | NT |
| Acrylic Acid | NT |
| Acrylonitrile | NR |
| Adipic Acid (25%) | SC, FC, OC |
| Allyl Alcohol | SC, FC, OC |
| Allyl Chloride | NT |
| Aluminum Bromide | FC, OC |
| Aluminum Chloride | FC, OC |
| Aluminum Nitrate (50%) | NT |
| Aluminum Sulfate (49%) | NT |
| Ammonium Bisulfite | SC, FC, OC |
| Ammonium Chloride | SC, FC, OC |
| Ammonium Fluoride | SC, FC, OC |
| Ammonium Hydroxide (10%) | SC, FC, OC |
| Ammonium Hydroxide (20%) | SC, FC, OC |
| Ammonium Hydroxide (30%) | SC, FC, OC |
| Ammonium Lauryl Sulfate (30%) | SC, FC, OC |
| Ammonium Nitrate | FC, OC |
| Ammonium Persulfate | FC, OC |
| Ammonium Sulfate | FC, OC |
| Ammonium Sulfide | FC, OC |
| Ammonium Sulfite | FC, OC |
| Ammonium Xylene Sulfonate (40%) | FC, OC |
| Amyl Acetate | FC, OC |
| Amyl Alcohol | FC, OC |
| Aniline | NR |
| Aniline Hydrochloride | SC, FC, OC |
| Antimony Chloride (tri) | FC, OC |
| Aqua Ammonia | SC, FC, OC |
| Aqua Regia | FC, OC |
| Arsenous Acid | FC, OC |
| Barium Chloride (50%) | SC, FC, OC |
| Barium Hydroxide (50%) | SC, FC, OC |
| Barium Sulfate | SC, FC, OC |
| Barium Sulfide | SC, FC, OC |
| Beer* | NR |
| Benzal Chloride | FC, OC |
| Benzaldehyde | NR |
| Benzene | FC, OC |
| Benzene Sulfonic Acid | FC, OC |
| Benzene Thiol | FC, OC |
| Boric Acid (5%) | SC, FC, OC |
| Bromine (5%) | NR |
| Bromine Gas (Dry) | NR |
| Bromine Gas (Wet) | NR |
| Butyl Acid Levulinic | FC, OC |
| Butyl Acrylate | FC, OC |
| Butyl Amine | FC, OC |
| Butyl Ether | FC, OC |
| Butyric Acid | NR |
| Cadmium Chloride | FC, OC |
| Cadmium Plating (Cyanide) | FC, OC |
| Calcium Bisulfite | FC, OC |
| Calcium Chloride (50%) | SC, FC, OC |
| Calcium Hypochlorite (5%) | FC, OC |
| Calcium Nitrate | NT |
| Calcium Nitrite | SC, FC, OC |
| Calcium Sulfate | SC, FC, OC |
| Calcium Sulfite | FC, OC |
| Caprylic Acid (Octanoic Acid) | NT |
| Carbon Bisulfide (Di) Fumes (wet) | NR |
| Carbon Dioxide | SC, FC, OC |
| Carbon Tetrachloride | FC, OC |
| Castor Oil | SC, FC, OC |
| Chloracetic Acid (20%) | NR |
| Chlorine Dioxide | NT |
| Chloroacetic Acid (20-50%) | NR |
| Chloroacetic Acid (50-100%) | NR |
| Chlorobenzene | FC, OC |
| Chlorobutane | FC, OC |
| Chloroform | NR |
| Chlorophenol | FC, OC |
| Chlorosulfonic Acid | NR |
| Chlorotoluene | NR |
| Chromic Acid (10%) | FC, OC |
| Chromic Chloride | SC, FC, OC |
| Citric Acid (=< 50%) | SC, FC, OC |
| Copper Chloride | SC, FC, OC |
| Copper Nitrate | FC, OC |
| Copper Plating (Acid) | FC, OC |
| Copper Plating (Cyanide) | FC, OC |
| Copper Sulfate (10%) | NT |
| Copper Sulfate (20%) | NT |
| Copper Sulfate (50%) | NT |
| Copper Sulfate (dry) | NT |
| Corn Oil* | FC, OC |
| Cottonseed Oil* | SC, FC, OC |
| Cresol | NR |
| Cresylic Acid | NR |
| Crude Oil (Sour) | FC, OC |
| Cumene | FC, OC |
| Cyclohexane | FC, OC |
| Cyclohexanone | FC, OC |
| Cymene | FC, OC |
*Results are NOT suitable for direct or indirect food contact. Intended use exposure results relate to product's performance and substrate protection capabilities only.
Series 285 Satinglaze was used as the topcoat for the Maricopa Animal Control Facility in Phoenix, AZ to provide a long-lasting, glossy shine.