Clear Coating None Yellowing UV Resistant Protective Top Coat 4 Outdoor/Indoor

Clear Coating None Yellowing UV Resistant Protective Top Coat 4 Outdoor/Indoor

USD 33.89 USD
SKU: ATsDxR2V
Condition: New

Specifications

Return Shipping Will Be Paid ByBuyer
All Returns AcceptedReturns Accepted
Item Must Be Returned Within30 Days
Refund Will Be Given AsMoney Back
ModelMAX SEAL 32 Ounce
Country/Region Of ManufactureUnited States
MPNMAXSEAL32
BrandMAX RESIN SYSTEMS

MAX SEAL32 Fluid Ounces or 1 US QuartAliphatic Polyurethane Dispersion Single Component, Clear UV Resistant Coating No Harsh Fumes- Odor FreeClear None Yellowing Protective CoatingApply Directly Onto Epoxy Resins And Other Surfaces That Requires UV ProtectionReduce Surface Oxidizing And ScalingFor Interior Or Exterior UseResistant To Fresh/salt WaterBonds Well To Various Substrates And Hard-To-Bond-To Metals And PlasticsWorks Well As A Tie-coat Primer For EpoxySeals Porous Substrates Excellent Clear Coat For Protecting Substrates From UV Damage And Mechanical AbrasionComplies with new AQMD RULE 1113 and RULE 1107 -VOC Limits and Air Polluting Emissions (Volatile Organic Compound) MAX SEAL is formulated to comply with the new stringent air quality management laws for new coating applications. MAX SEAL exceeds the requirements of reportable volatile organic compound to district air quality management agency, which makes it an excellent material for almost all types of industrial, commercial and architectural applications.MAX SEAL complies all Federal, State, County and Municipal Air Quality management regulations (AQMD), Southern California -SCAQMD, which has the strictest air quality regulations in the United States.Excellent Chemical ResistanceSuperior Scrub ResistanceCures To A High Gloss None Yellowing FinishDip, Roller Coat, Or Brush AppliedExcellent Outdoor Durability -Gloss RetentionFast Dry Times 100 Hours ExposureUV B315 - 280 nmMedium Wave> 100 Hours ExposureUV C280 - 100 nmShort Wave, Germicidal> 100 Hours ExposureMAX SEAL Applied On Wrought Iron Coating Furniture Prevents Rusting After 7 Years Outdoor Exposure Uncoated Wrought Iron After 2 Years Abrasion Resistance Falling Sand Tester (ASTM D 968) As the name indicates, the falling sand tester measures the abrasion resistance of paint or other coatings to falling sand. The work is performed according to ASTM D 968. Quartz sand with a specific grain size is poured through a funnel and guide tube to impinge on a test plate. Typically this test is used to determine the abrasion resistance of a painted surface. This test can be adapted to determine relative wear resistance of many materials by varying the size and hardness of the abrasive used.For instance, wear resistance of polymer composite panels can be evaluated using the falling sand method.Dry Pencil Rub Shore 40A>100 Double RubsFalling Sand Abrasion ASTM D968 5> 4 hours 10 pounds per hour MAX SEAL Applied On Wood - Creates A Waterproof Barrier Cured Gloss Gloss (ASTM D253) >90% at 60-degree angle Weather Resistance (ASTM 1006)Negligible loss in mechanical properties after 1 year of direct sunlight exposure(< 1.2% loss in elongation and gloss) Over 1,000 hours in accelerated weather chamber with less than 5% change in properties Protective Coating For Epoxy Coatings MAX CFC WHITE is an epoxy base coating was used as the concrete coating along with 2 coats of MAX SEAL applied as a protective top coat. The MAX SEAL top coating imparts a protective top coat over the epoxy floor coating thus retarding yellowing or darkening of the epoxy from the UV producing sodium metal halide lamps. MAX SEAL Applied Over MAX CFC A/B Epoxy [isdntekvideo] MAX CFC A/B Concrete Gray Colorhttps://www.ebay.com/itm/222625093873MAX SEAL was applied as a top coat to prevent premature yellowing of the bright white MAX CFC floor coating. The overhead metal halide lamps that produces high UV energy. Photographs Courtesy of Mr. Mike Huizenga President, YaHu Inc. Manning, SCMAX SEAL Clear Protective Floor Coating Applied Over Epoxy Improves Slip Resistance When Wet Wood, Metals, Plastics, Concrete, And Stone Substrates MAX SEAL Applied On Concrete As A Clear Waterproof Coating 3 Coats Were Applied To Create Waterproof Barrier Coating On Porous Concrete MAX SEAL 3 Coat Application On Concrete Creates Waterproof Barrier SURFACE PREPARATION OF VARIOUS SUBSTRATES FOR BONDING OR COATING In virtually every application the quality of the bond between the resin system and the surface to which it is applied is improved if the surface is clean and dry. This is particularly true of adhesive applications where stress will be applied to the cured bond line. It is also true where protective coatings are used. The following surface preparation procedures are recommended. METALS1. Degrease – Wipe faying surfaces with Methyl Ethyl Ketone (MEK) to remove all oil, dirt, and grease. 2. Etch – For optimum results, metal parts should be immersed in a chromic acid solution consisting of:Sodium Dichromate – 4 Parts By WeightSulfuric Acid – 10 Parts By WeightDistilled Water – 30 Parts By Weight The solution should be held at a temperature of 160°F (71°C), and the parts left immersed for 5 to 7 minutes. 3. Rinse – remove metal parts from etching bath and rinse in clean cold water (de-ionized water is recommended). If thoroughly clean, metal surfaces so treated will hold a thin film of water. 4. Dry – To accelerate drying, items to be bonded can be placed in an air-circulating oven. ALTERNATE PROCEDURE1. Degrease, scour and dry – Often etching as outlined above is not practical. The metal surfaces may be cleaned by degreasing as noted above, scouring with an alkaline cleanser followed by rinsing and drying. 2. Degrease and dry – Degrease the surface as noted above, sand or sandblast the surface lightly but thoroughly. Rinse with acetone or Methyl Ethyl Ketone (MEK), and dryGLASS1. Degrease – With MEK as above, or with a strong boiling solution of a good grade household detergent. 2. Etch – For optimum results, degreasing can be followed with the chromic acid bath outlined above. WOOD1. Sand – Bonding surfaces should be sanded lightly, but thoroughly to remove all external contamination. 2. Clean – Carefully remove all dust, or particles of wood from sanded areas. A stiff and clean brush or compressed air can be used. PLASTIC1. Clean – Remove all dirt, oil, or other surface contaminates with soap and water, followed by thorough rinsing and allow to dry. A solvent that does not have a detrimental effect may also be used. 2. Sand – Surfaces to be bonded should be sanded lightly, but thoroughly to remove surface sheen. 3. Clean – Carefully remove all dust or particles of plastic from the sanded area. A clean brush, lint-free cloth, or compressed air may be used. Flame Treating Of Plastic To Improve AdhesionObtaining adequate bond strength when bonding plastic-to-plastic substrates or plastic to dissimilar substrates is often a challenge for epoxy bonding In general plastic surfaces demonstrates poor ‘wettability’ or the ability of a liquid to form a continuous film. These types of substrates or are called LSE or Low Surface Energy substrates and in general, most thermoplastic surfaces fall within this category. Teflon or its generic name PTFE and other polyethylene derivatives such as HDPE, LDPE, UHMW and olefinic-based plastics demonstrate poor liquid wettability due to its low surface energy. To create a viable bondable surface condition for these types of plastics, it must be surface treated by creating a superficial oxidized surface to increase its dynamic surface tension. Various types of physical treatment can be used to increase the surface energy of plastics, mostly through oxidation of the superficial layer. Flame treatment is the most widely used and cost-effective pre-treatment for polyethylene (HDPE, LDPE, UHMW) and polyolefin-based plastics prior to polymer bonding or printing. The resulting change of the surface by creating an oxidized layer onto the substrate greatly improves the ability of liquids wet-out the surface thus creating a strong adhesive bond between the surface and the coating. A Flame Treating process consists of exposing the surface to a suitable oxidizing flame for a period in the range 0.2 to 3.0 seconds. This treatment brings about a change to the polymer surface that increases its surface energy allowing fluids to effectively wet-out the surface and permits a strong adhesive molecular and mechanical bond. Flame Treating Of Plastics To Improve Wetting And Adhesion Click Play To Watch Video Video will open in a new window Using the eBay App? Paste link into a browser window: [isdntekvideo] UHMW Sheets Flame Treated- Microscopic Surface Comparison Flame Treating Of Plastics Adjust the propane torch so that a low oxygen burning flame is achieved Pass over the area to be treated several times until a slight haze is noticed on the surface of the substrate. Note the fluid behavior on the flame treated area demonstrating improved wetting.This improves substrate wetting (adhesive or coatings) and improves adhesion on hard-to-bond surfaces. By modifying the surface condition of the plastic, polymer bonding is now possible. CuringMAX SEAL cures via the evaporation of the carrier solvent (water). MAX SEAL is dry to the touch after 30 minutes at room temperature. Subsequent coats can be applied after the previous application transforms from a milky translucent coating to a clear finish. Allow the final application to cure for 24 to 36 hours at room temperature- 75°F. To accelerate curing, allow the final application to cure until the final coat looks clear. Then expose the coating to heat source with good air movement for 2 to 3 hours @ 150°F. A processing oven or infrared heat lamp works well. Convection Oven *****************************************************PLEASE CHECK OUT OTHER AVAILABLERESIN SYSTEMS AT OUR eBay STOREFor our complete listing, please Visit our eBay store! DON'T FORGET OUR EPOXY MIXING KITClick The Link To Add To Order https://www.ebay.com/itm/222623932456EVERYTHING YOU NEED TO MEASURE, MIX, DISPENSE OR APPLY Proportioning the correct amount is equally as important to attain the intended cured properties of the resin system. The container in which the epoxy and curing agent is mixed is an important consideration when mixing an epoxy resin system. The container must withstand the tenacity of the chemical and must be free of contamination. Most epoxy curing agent has a degree of corrosivity, as a general practice, protective gloves should be worn when handling chemicals of the same nature. MIXING KIT CONTENTS 1 Each Digital Scale -Durable, Accurate Up To 2000.0 Grams 4 Each 32-ounce (1 Quart) Clear HDPE Plastic Mix Cups4 Each 16-ounce (1 Pint) Clear HDPE Plastic Mix Cups5 Pairs One Size Fits All Powder-Free Latex Gloves 2 Each Graduated Syringes Wooden Stir Sticks Foam Brush IMPORTANT NOTICEYour purchase constitutes the acceptance of this disclaimer. Please review before purchasing this product.The user should thoroughly test any proposed use of this product and independently conclude the satisfactory performance in the application. Likewise, if the manner in which this product is used requires government approval or clearance, the user must obtain said approval.The information contained herein is based on data believed to be accurate at the time of publication. Data and parameters cited have been obtained through published information, PolymerProducts and Polymer Composites Inc. laboratories using materials under controlled conditions. Data of this type should not be used for a specification for fabrication and design. It is the user's responsibility to determine this Composites fitness for use.There is no warranty of merchantability for fitness of use, nor any other express implied warranty. The user's exclusive remedy and the manufacturer's liability are limited to refund of the purchase price or replacement of the product within the agreed warranty period. PolymerProducts and its direct representative will not be liable for incidental or consequential damages of any kind. Determination of the suitability of any kind of information or product for the use contemplated by the user, the manner of that use and whether there is any infringement of patents is the sole liability of the user.

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