Help with Sealers and Seal Coatings specifications:
Technology
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| Technology | |||
| Your choices are... | |||
| Film Drying / Air Setting | Film drying or air setting forms a continuous, dry film from a binder which can be pigmented. The evaporation of the solvent, carrier, or thinner sets the coating. | ||
| Laser Fused (Laser Marking) | Laser marking uses a laser beam to fuse the coating, ink, or marking material with the substrate’s surface. Laser-fused coatings are extremely corrosion resistant. | ||
| Multicomponent | Multicomponent coating systems use a polymeric protective film that applies a prime coat, intermediate coat, and finish coat. Multicomponent coatings can consist of multiple liquids (A+B or A+B+C) that are blended together just before an end-use application. Some of the components can be catalysts, curing agents, retarders, accelerators, fillers, reinforcements, colorants, or specific property enhancers. | ||
| Reactive / Moisture Cured | Reactive resins are single-component adhesives that are applied in the same way as hot melt adhesives. The resins react with moisture to crosslink and polymerize, resulting in a cured material. Polyurethane reactives (PUR) are examples of reactive resins. Certain silicones and cyanoacrylates also react with moisture or water to cure the adhesive or sealant. | ||
| Thermoplastic | Thermoplastic coatings are powders that melt repeatedly when heated. They solidify when cooled. | ||
| Thermoset | Thermoset coatings are powders that undergo a chemical reaction during the cure cycle when heated. | ||
| Radiation Cured - UV Irradiation | Coatings are cured through ultraviolet (UV) irradiation. UV-curable coatings can increase productivity by dramatically reducing process time because UV curing coatings can set in seconds. Thermally-cured coatings may take minutes to hours to dry or set. | ||
| Other | Other unlisted coating technologies. | ||
| Search Logic: | All products with ANY of the selected attributes will be returned as matches. Leaving all boxes unchecked will not limit the search criteria for this question; products with all attribute options will be returned as matches. | ||
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Substrate
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| Substrate / Surface | |||
| Your choices are... | |||
| Aluminum | Coatings can be applied to aluminum substrates or surfaces. | ||
| Anodized | Coatings can be applied to anodized substrates or surfaces. | ||
| Asphalt | Coatings can be applied to asphalt substrates or surfaces. | ||
| Ceramic / Porcelain | Coatings can be applied to ceramic or porcelain substrates or surfaces. | ||
| Concrete / Masonry | Coatings can be applied to concrete or masonry. | ||
| Glass | Coatings can be applied to glass substrates or surfaces. | ||
| Metal | Coatings can be applied to metal substrates or surfaces. | ||
| Plastic | Coatings can be applied to plastic substrates or surfaces. | ||
| Steel | Coatings can be applied to steel substrates or surfaces. | ||
| Wood | Coatings can be applied to wood substrates or surfaces. | ||
| Other | Other unlisted substrate materials. | ||
| Search Logic: | All products with ANY of the selected attributes will be returned as matches. Leaving all boxes unchecked will not limit the search criteria for this question; products with all attribute options will be returned as matches. | ||
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| Surface Location / Orientation | |||
| Your choices are... | |||
| Exterior | Coatings are designed for exterior use and are weatherable. | ||
| Interior | Coatings are designed for use inside buildings and structures. | ||
| Floor | Floor coatings are interior coatings designed for floors. | ||
| Wall | Wall coatings are interior coatings designed for walls. They usually include some type of finish. | ||
| Ceiling | Ceiling coatings are interior coatings designed for ceilings. | ||
| Roof | Roof coatings are exterior coatings designed for roofs. | ||
| Pavement / Walkway | Coatings for pavements or walkways are able to withstand extreme environmental conditions, such as vehicular traffic, ice-melting salts, and dust-control chemicals. | ||
| Other | Other unlisted surface locations or orientations. | ||
| Search Logic: | All products with ANY of the selected attributes will be returned as matches. Leaving all boxes unchecked will not limit the search criteria for this question; products with all attribute options will be returned as matches. | ||
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Chemistry
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| Chemistry | The resin is the film-forming portion of the paint. | ||
| Your choices are... | |||
| Acrylic / Latex | Acrylic is a synthetic resin used in high-performance latex or water-based paints. Acrylic resins form the paint's binder and enable the coating to last longer and retain its color. Acrylic coatings are recommended for bonding metals. They can also be used with oily surfaces, glass, ferrite, plastics, and fiber-reinforced plastics (FRP). | ||
| Alkyd / Oil Based | Alkyd resins are used mainly in interior and exterior trim paints. Some medium-duty equipment and marine enamels use alkyd resins as binders. | ||
| Aluminum | Coatings contain aluminum, a silver-white, metallic element used to make hard, light, corrosion-resistant products. Aluminum has a melting point of 660° C, a boiling point of 2467° C, and a specific gravity of 2.699. | ||
| Ceramic Coating | Ceramics consist of oxides, carbides, nitrides, carbon, and other non-metals with high melting points. Refractory ceramic coatings are sprayed onto the insides of kilns, and on elements to lengthen life and improve efficiency. Coated elements are more efficient and may last up to 10 times longer than uncoated elements. Although ceramic coatings are expensive, they provide long-term savings. | ||
| Conversion Coating | Conversion coatings cause chemical conversions on metal surfaces to produce thin, adherent, compound coatings. Conversion coatings include oxide, phosphate, and chromate coatings. | ||
| Epoxy | Epoxy resins are a large, high-performance group of resins. Epoxies generally outperform most other types of resins in terms of mechanical properties and resistance to environmental degradation. Epoxy coatings are used almost exclusively in aircraft components. | ||
| Fluoropolymers (PTFE, FEP, MFA, etc.) | Fluorine is the most electronegative element, so fluorine and fluoride have very minimal affinity for accepting electrons from other elements. Fluoropolymers and fluorinated surfaces have very low surface energy. Fluoropolymers are a family of engineering plastics characterized by high-thermal stability, low friction, and almost universal chemical stability. PTFE and other fluoropolymers are chemically inert and chemically resistant. Fluoropolymers include polytetrafluoroethylene (PTFE), fluoroacrylate, fluoroeurathane, fluorosilicone, fluorosilane, trichloro(1H,1H,2H,2H-perfluorooctyl)silane (TCS), octadecyltrichlorosilane (OTS), heptadecafluoro-1,1,2,2-tetrahydrodecyltrichlorosilane, fluoroPOSS, Polytetrafluoroethylene, PTFE, is a very widely used fluoropolymer. PTFE contains fluorine and recurring tetrafluoroethylene monomer units. Teflon®, a popular brand of PTFE and other fluoropolymers, is a registered trademark of Chemours, a spin-off of the DuPont Company. Additional examples of fluoropolymer plastics, elastomers or compounds include fluorinated ethylene-propylene (FEP), fluoroelastomer tetrafluoroethylene-propylene (FEPM), perfluoroalkoxy (MFA, PFA), polyvinylfluoride (PVF), polyvinylidenefluoride (PVDF), polychlorotrifluoroethylene (PCTFE), polyethylenetetrafluoroethylene (ETFE), polyethylenechlorotrifluoroethylene (ECTFE), and chlorotrifluoroethylenevinylidene fluoride (FPM, FKM). | ||
| Formaldehyde Resins (Phenolic, Furan, Melamine) | Phenolic and formaldehyde resins are thermosetting molding compounds and adhesives that provide strong bonds and good resistance to high temperatures. Phenolic or phenol formaldehyde, urea formaldehyde, furan, and melamine resins are all part of this category. Generally, the most durable resins are made from chemicals of the phenol group and formaldehyde. Phenolic resins come in liquid, powder, and film form. Special phenolic resins are available that harden at moderate temperatures when mixed with suitable accelerators. Phenol-formaldehyde, resorcinol-formaldehyde, resol, and novalac resins are types of phenolic resins. Urea resin adhesives are made from urea, formaldehyde, and catalysts or hardeners. Urea formaldehyde resins can harden rapidly at moderate temperatures, but generally do not have the properties of phenolic resins. Melamine resins are made through a reaction of dicyandiamide with formaldehyde. Most of the resins in this group have excellent dielectric properties. Furan formaldehyde (FF) resins are made by the polymerization or poly-condensation of furfural, furfural alcohol, or other compounds containing a furan ring, or by the reaction of these furan compounds with other compounds (not over 50%). Fire-retardant furans are used in hand lay-up, spray-up, and filament winding operations. Furans are commonly used in foundry binders, grinding wheels, refractories, and other high-temperature applications. Furan resins and chemicals are also used in fiberglass composites, hybrid resins combined with epoxy or phenolics, and in corrosion-resistant cements. | ||
| Glaze / Glass Enamel | Glazes or glass enamel coatings are fused onto ceramics, metal, or porcelain. Glazes are inorganic enamels based on a fused silicate composition. Glass or porcelain coatings have glass-like properties, such as high heat and electrical insulation. | ||
| Inorganic (Ceramic, Conversion, Glaze) | The compound or material system is based upon an inorganic chemistry. Completely inorganic coatings contain both an inorganic binder and inorganic fillers. Inorganic coatings also include salts or inorganic chemical solutions that react with a substrate to convert a layer into a protective phosphate or chromate layer. These inorganic coatings are called conversion coatings. Coatings may contain a resin or polymer binder, or a base filled with fine, inorganic aggregates, or mineral powders. The organic portion may evaporate or burn-off during curing or end-use. | ||
| Metal / Metal Filled | The coating contains metal or is filled with metal. | ||
| Polyurethane | Polyurethane is a tough, rubber-like elastomer based on the condensation of organic isocyanates with resins containing hydroxyl groups. Polyurethane is also referred to as urethane. | ||
| Resin Base / Polymer Binder | Resin bases and polymer binders are translucent or transparent and solid or semi-solid. They contain synthetic and natural materials. Examples of resin bases and polymer binders include acrylic, alkyd, copal ester, epoxy, polyurethane, polyvinyl chloride, and silicone coatings. | ||
| Rubber / Elastomer Based | Rubber is a natural or synthetic material that can quickly and forcibly recover from large deformations. Rubber is used as a resin in elastomer-based coatings. | ||
| Silicone | Silicone contains a unique polymer system that can be a very effective release coating. | ||
| Silver | Coatings contain silver. | ||
| Solvent Based | Solvent-based coatings primarily use volatile organic compounds (VOCs) as the carrier. | ||
| Vinyl | Coatings use a vinyl resin as the major binder component. Vinyl resins are used in both polyvinyl chloride (PVC) and polyvinyl acetate coatings. | ||
| Water Based | Water-based coatings use water as the primary carrier, but may also contain chemicals such as glycol ethers, alcohols, and other water-soluble VOCs. | ||
| Zinc | Coatings contain zinc, a blue-white metallic element that is malleable and ductile even at ordinary temperatures. Zinc can be electrodeposited and is used extensively as a coating for steel and sheets. Zinc has a melting point of 7870° F, a boiling point of 16650° F, and a specific gravity of 7.14. | ||
| Other | Other unlisted chemistries. | ||
| Search Logic: | All products with ANY of the selected attributes will be returned as matches. Leaving all boxes unchecked will not limit the search criteria for this question; products with all attribute options will be returned as matches. | ||
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Processing
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| Cure / Dry Temperature | Cure temperature or dry temperature is the temperature at which coatings stabilize and do not flow. | ||
| Search Logic: | User may specify either, both, or neither of the "At Least" and "No More Than" values. Products returned as matches will meet all specified criteria. | ||
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| Coverage | Coverage is the theoretical area of a substrate that a coating can cover at a given thickness. | ||
| Search Logic: | User may specify either, both, or neither of the "At Least" and "No More Than" values. Products returned as matches will meet all specified criteria. | ||
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| Wet / Applied Thickness | Wet thickness is the thickness or range of thicknesses by which coatings can be applied. | ||
| Search Logic: | User may specify either, both, or neither of the "At Least" and "No More Than" values. Products returned as matches will meet all specified criteria. | ||
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Performance
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| Resistivity | Resistivity or specific resistance measures a coating's ability to resist the flow of electrical current. The reciprocal of resistivity is conductivity. | ||
| Search Logic: | User may specify either, both, or neither of the "At Least" and "No More Than" values. Products returned as matches will meet all specified criteria. | ||
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| Dielectric Strength | Dielectric strength is the maximum voltage that a dielectric material can withstand under specified conditions without rupturing. It is usually expressed as volts per unit thickness. Dielectric strength is also called disruptive gradient or electric strength. | ||
| Search Logic: | User may specify either, both, or neither of the "At Least" and "No More Than" values. Products returned as matches will meet all specified criteria. | ||
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| Operating / Use Temperature | Operating temperature is the temperature or temperature range that set coatings can be used at or exposed to without degrading structural or other required end-use properties. | ||
| Search Logic: | User may specify either, both, or neither of the "At Least" and "No More Than" values. Products returned as matches will meet all specified criteria. | ||
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Form / Application Method
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| Form: | |||
| Your choices are... | |||
| Aerosol | The coating is dispensed as an aerosol or spray. | ||
| Cartridge | The ink, coating, or marking material is packaged in a cartridge for controlled delivery via a printer or other type of precision dispensing equipment. | ||
| Film / Laminate | The coating is a thin sheet of plastic adhered to the substrate for protection. | ||
| Liquid | The coating is a liquid. | ||
| Marker / Pen | The coating, ink, paint, or marking material is packaged and dispensed in the form of a marker or pen. | ||
| Paste / Mastic | The coating is a paste or mastic. Pastes and mastics are thick, high-viscosity coatings. | ||
| Transfer Tape | The ink, coating, or marking material is packaged as transfer tape for controlled delivery via a printer or other type of precision dispensing equipment. | ||
| Other | Other forms or dispensation methods. | ||
| Search Logic: | All products with ANY of the selected attributes will be returned as matches. Leaving all boxes unchecked will not limit the search criteria for this question; products with all attribute options will be returned as matches. | ||
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Features
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| Features | |||
| Your choices are... | |||
| Anti-Static / ESD Control | Anti-static coatings and electrostatic discharge (ESD) control coatings are used to minimize static electricity in sensitive environments. | ||
| Chemical / Oil Resistant | Chemical-resistant coatings resist acids, alkalis, oils, and general chemicals. | ||
| Conductive | Conductive coatings form an electrically conductive layer. | ||
| Dielectric | Dielectric coatings are made from nonconducting materials and are used in optical applications. High-reflection coatings consist of a stack of alternating layers of high-and-low refractive-index materials. Each layer in the stack has an optical thickness of a quarter-wave at the design wavelength. | ||
| Corrosion Inhibiting / Rust Preventive | Corrosion-inhibiting or rust-preventive coatings prevent moisture from reaching the metal or underlying substrate, or provide a sacrificial layer. Resin-based coatings are both corrosion and chemically-resistant, and provide a barrier to protect the substrate. Zinc or aluminum coatings provide a sacrificial layer that galvanically protects the ferrous surface, even if the layer is breached. Zinc phosphate, barium metaborate, and strontium chromate (all pigments) are common ingredients in corrosion-inhibitive coatings. These pigments absorb any moisture that enters the coating film. Lubricant, oil, and grease coatings also provide a water-repellent barrier to inhibit corrosion. Rust-preventative coatings are designed to minimize rust or iron-alloy corrosion when applied directly to ferrous metals such as carbon or alloy steels. | ||
| EMI / RFI Shielding | Coatings provide shielding from electromagnetic interference (EMI) or radio frequency interference (RFI). | ||
| Flame Retardant / UL 94V-0 Rated | Coatings are flame-retardant in accordance to Underwriters Laboratories, Inc. (UL) Flame Class 94V-0, or other equivalent ISO standards. These materials reduce the spread of flame or resist ignition when exposed to high temperatures. They also insulate the substrate and delay damage to the substrate. Flame retardant coating is often applied to textiles, fabrics or other materials to enhance the flame retardancy nature of the material. | ||
| Heat Resistant / High Temperature | Heat-resistant coatings and high-temperature coatings resist damage from heat, or are formulated for use in high-temperature environments. | ||
| Protective | Protective coatings are designed to protect substrates and surfaces. | ||
| Touch-Up | Touch-up coatings are used to repair and match the original coating where it has been damaged by scratching, corrosion, abrasion, erosion, scuffing, denting, chipping, delaminating, or other processes. The touch-up coating material should have good adhesion to damaged and prepped substrates and undamaged paint surfaces. The color and functional protective properties should match those of the existing paint or coating on the substrate. Touch-up coatings are available in small containers, aerosol spray cans, and pen forms. | ||
| Waterproof / Water Repellant | Waterproof or water-repellant coatings are clear, exterior finishes that cause water to bead-up on the surface. They also minimize the penetration of water into the substrate. | ||
| Wear Resistant (Abrasion / Erosion) | Wear- or erosion-resistant coatings are designed to resist surface degradation via friction. Wear is caused by a sliding action between two or more components. Erosion is surface damage or material removal caused by the impact of particles or slurries. | ||
| Weather / UV Resistant | Weather or ultraviolet (UV) resistant coatings are weather-resistant or protect against damage from UV radiation. | ||
| Other | Other unlisted features. | ||
| Search Logic: | All products with ANY of the selected attributes will be returned as matches. Leaving all boxes unchecked will not limit the search criteria for this question; products with all attribute options will be returned as matches. | ||
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| Industry | |||
| Your choices are... | |||
| Automotive | Coatings are designed for use in automotive applications. | ||
| Electronics | Coatings are designed for use in the electronics industry. | ||
| Food and Beverage | Coatings are designed for use in the food and beverage industry. This category includes both food products and the packaging products that come into contact with food and beverages. | ||
| Machine Tools | Coatings are designed for the machine tool industry. | ||
| Marine | Coatings are designed for marine applications and are often weatherproof and corrosion-resistant. | ||
| Medical / Healthcare | Coatings are designed for medical or healthcare applications and are often sanitary, pathogen-resistant, and bacteria-resistant. | ||
| Military Specification | Coatings are designed for use in military applications. | ||
| OEM / Industrial | Coatings are designed for use in original equipment manufacturer (OEM) or industrial applications. Industrial coatings are durable, high-quality coatings designed for heavy-duty use or highly specialized functions. | ||
| Process Equipment | Coatings are designed for use with process equipment. | ||
| Railway | Coatings are designed for use in railway applications. | ||
| Other | Other unlisted industries or applications. | ||
| Search Logic: | All products with ANY of the selected attributes will be returned as matches. Leaving all boxes unchecked will not limit the search criteria for this question; products with all attribute options will be returned as matches. | ||
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