Leviton

EPOXY RESIN INDUSTRIAL GLUE 4 METALS WOOD FIBERGLASS CONCRETE FDA COMPLIANT

Description: MAX BOND MEDIUM VISCOSITY A/B32 Fluid Ounce Kit (Combined Volume)16 ounce PART A -RESIN16 ounce PART B -CURING AGENT EPOXY SYSTEM FOR STRUCTURAL BONDING APPLICATIONS1:1 Mix Ratio 90 Minute Working Time This resin system is epoxy/polyamide-based.The resin/curing agent combination is extensively tested and used epoxy adhesive in industrial manufacturing and assembly. It is FDA Compliant for direct and indirect food contact under FDA CFR Title 21, Part 175.300 mandates Medium Viscosity VersionThe consistency/viscosity of this mixed resin and curing agent is similar to honey or molasses at 74°F. DESCRIPTIONMAX BOND Medium Viscosity A/B is a two-part, epoxy-based resin system specially formulated to yield structural bond strength to metals, plastics, wood, concrete, tile, and composite substrates (Carbon Fiber, Fiberglass, Kevlar, Quartz, Basalt FRP). It is mixed 1:1 by weight or by volume and offers up to 60 minutes of working time (200-gram mass). The mixture is applied by brush, roll coater, trowel, or injected into place. For meter-mix dispensing, use an 18 element static mixer to achieve a homogeneous consistency. MAX BOND Medium Viscosity A/B cures at room temperature or heat cured for faster processing. It cures clear (slight amber color) when used as a laminating adhesive for transparent substrates such as glass and plastic films. MAX BOND Medium Viscosity A/B is an excellent adhesive for marine applications such as boat building and repairs, architectural construction, aerospace composites, and non-conductive adhesive for the electronics industry. Upon cure, MAX BOND Medium Viscosity A/B demonstrates excellent impact resistance, minimal loss of adhesion from continuous water immersion, cyclic vibrations, and seasonal temperature changes from -40°C to 90°C. MAX BOND Medium Viscosity A/B demonstrates structural bond strengths to a variety of substrates commonly used in composites industry such as steel, aluminum, soft metals, fiberglass, concrete, ceramic and most plastics. MAX BOND Medium Viscosity A/B performs well in wide range of service temperature and resists cracking and delamination due to cyclic vibration, thermal expansion, and contraction. It is an undiluted epoxy resin formulation that yields high mechanical performance and compliance to military specifications listed below. MAX BOND A/B Conforms To Hundreds of Aerospace /Military/Naval Materials Specifications MIL-A-8623 T1 MS-511 MMM-A-134 Type1 and Type 2 OS-9923A Boeing BMS-5-29 NASA Requirements For Low Outgassing Properties -ASTM E 595Less Than 1% TML And CVCM Brush, Roller Coat, Trowel Applied Bonds Steel, Aluminum, Soft Metals, Concrete, Ceramic, Fiberglass, Composites Excellent Impact Resistance Excellent Balance of Strength and Flexibility Excellent Water/Salt Water Resistant For Marine/Aerospace Applications Low Shrinkage For Excellent Dimensional Stability Wide range of service temperatureTHIS KIT IS PACKAGED WITH YORKER CAPS FOR CONTROLLED DISPENSING.Use these Yorker caps to dispense the material with ease and minimize over pouring and reduce spills. We do not recommend usingdispensing pumps. The curing agent or part B of any epoxy resin system is sensitive to moisture and carbon dioxide, which will react with the curing agent and form carbamate crystals (salt-like crystals that form on the tip of the pump) and reduce reactivity. Carbamate crystals that form on the pump when the curing agent is exposed to ambient moisture and carbon dioxide.These crystals are insoluble in epoxy resin resulting in contamination and causes poor cure and amine-blushing. RESIN CRYSTALLIZATION FROM PROLONGED STORAGE OR COLD WEATHER EXPOSUREThe resin component or the PART A may crystallize due to cold temperature exposure. Please inspect the resin component for any solidified crystals which will appear as waxy solid or cloudiness on the bottom of the PART A bottle.An information postcard is included with each package. View the following video for identification and processing.DO NOT USE UNLESS PROCESSED TO REVERT ANY CRYSTALLIZED RESIN BACK TO A LIQUID STATE AND AVOID POOR CURED RESULTS.PHYSICAL AND MECHANICAL PROPERTIES Density (Mixed)1.10 g/ccForm and Color CuredTranslucent Straw ColorShelf Life12 MonthsViscosity Mixed15,540 cPs @ 77°F (25°C)Mix RatioEqual parts by weight or by volumeWorking Time90 Minutes @ 77°FPeak Exotherm180 °F to 190°F 200 gram massCure Time36 Hrs. MinimumAccelerated Cure Schedule2 Hrs. @ 212°F (100°C) Hardness85 to 90 Shore DTee-Peel Strength6.3 Pounds Per Inch WidthCompressive Strength15,800 psi @ 77°F (25°C)Tensile Shear Strength4,100 psi @ 77°F (25°C) 2,200 psi @ -112°F (-80°C) 1450 psi @ 212°F (100°C)Elongation2.3% Maximum YieldTensile Strength8500 psi (Ultimate @ break)CHEMICAL RESISTANCE TEST 30 Day Soak Test @ 77°F (25°C) 3% Salt Water Sulfuric Acid 30% Nitric Acid 10% Ammonia 10% Sodium Hydroxide 10% Sodium Hypochlorite (Bleach) 10% Anti-Freeze Motor Oil Soak Skydrol Palm Oil GlycerinWEIGHT CHANGE %0.02 1.9 3.8 3.7 3.0 No Effect No Effect No Effect No Effect No Effect No EffectELECTRICAL PROPERTIESVolume Resistivity2.7 x 1012 Ohms-cm (Ω-cm)Dielectric Strength510 Volts/Mil @ 60 Hz.Dielectric Constant3.23 @ 60 HzSERVICE TEMPERATURE- 40 ⁰C to 90°C MIXING EPOXY RESINS Please View The Following Video For The Proper Mixing Of Epoxy Resins. It Demonstrates The Proper Technique Of Mixing Any Type Of Epoxy Resin System.Evidence Of Poor Mixing Tacky Cure Due To Poor Mixing Video will open in a new window [isdntekvideo] Coverage Yield Per GallonUse these theoretical factors to determine coverage as a guide for resin usage. Determine the length x width x thickness in inches to obtain the cubic volume inch of the mixed resin needed. Use the following equation:1 gallon of resin can cover 1608 square feet per 1 mil or 0.001-inch coating thickness on a smooth and none absorbent substrate(a pane of glass for example). Calculation(length x width x coating thickness)/ 231 cubic inches per gallon = cubic-inches of coating needFor Example50 inches x 36 inches x 0.010 (10 mils) = 18 cubic inches18/231= .0779 gallon of mixed resin needed to cover the surface area Use these factors to convert gallon needed into volumetric or weightMeasurements use the following factors by the gallon needed:FOR EXAMPLE:231 X .0779 = 17.99 CUBIC INCHES Or 4195 GRAMS X .0779 = 326.79 GRAMSSurface Preparation METALSDegrease – Wipe laying surfaces with Methyl Ethyl Ketone (MEK) or acetone to remove all oil, dirt, and grease. Etch – For optimum results, metal parts should be immersed in a chromic acid bath solution consisting of:Sodium dichromate – 4 parts by weightSulfuric acid – 10 parts by weightWater – 30 parts by weightThe solution should be held at a temperature of 160°F (71°C), and the parts left immersed for 5 to 7 minutes. 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. Dry – To accelerate drying, items to be bonded can be placed in an air-circulating oven. ALTERNATE PROCEDUREDegrease, 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. 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 dry.GLASSDegrease – With MEK as above, or with a strong boiling solution of a good grade household detergent. Etch – For optimum results, degreasing can be followed by the chromic acid bath outlined above. WOODSand – Bonding surfaces should be sanded lightly, but thoroughly to remove all external contamination. Clean – Carefully remove all dust, or particles of wood from sanded areas. A stiff and clean brush or compressed air can be used. PLASTIC (see Flame Treating below)Clean – Remove all dirt, oil, or other surfaces contaminated with detergent soap or degreasing solvent and water, followed by thorough rinsing and drying. A solvent that does not have a detrimental effect may also be used. Sand – Surfaces to be bonded should be sanded lightly, but thoroughly to remove surface sheen. 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. The quality of adhesion of any coating or adhesive application is dependent on how well the surface is prepared.The resin system must be able to properly 'wet-out' the surface to form a continuous film. A surface demonstrating poor wettability prevents the liquid resin from forming a cohesive bond. Improper surface wetting yields poor adhesion and will delaminate during use. Wetting is the ability of a liquid to interfaces or wet-out a solid surface; its dynamics is expressed as surface tension. A surface that demonstrates low surface tension, such as waxed surface, oily surface or slick plastics like Teflon will prevent the liquid resin to wet-out and cause poor adhesion. Testing For Surface To Yield Structural Bond AdhesionTesting And Preparing Surface Before Applying Epoxy Coating Or Adhesive. - YouTubeVideo will open in a new window Using the eBay App? Paste link into a browser window:Flame Treating Of Plastic To Improve Adhesion. Obtaining 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, must be treated before application.These types of substrates or are called LSE or Low Surface Energy substrates. In general, most thermoplastic surfaces fall into 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 Using A Commercially Available Propane Torch Adjust the propane torch so that a low oxygen burning flame is achieved and pass over the area to be treated several times until a slight haze is noticed on the surface of the substrate. A Dyne pen is used to view the improve surface wetting of the untreated and flame treated UHMW plastic. Flame Treating the plastic substrate will make adhesion possible and create a strong bond.Flame Treated Surface Ideal For Bonding Load Testing For Tensile Shear Strength of the Adhesion Types of mechanical load and stress points Joint and Bonding And Design Suggestions To Make This Resin System To An Opaque Color Add 3% To 5% Of Our Max Epoxy Pigment Paste.MAX COLOR KIT https://www.ebay.com/itm/311946633043 Adding Color With MAX Color Pigment Concentrates 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 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.

Price: 33.66 USD

Location: Ontario, California

End Time: 2024-11-07T18:05:39.000Z

Shipping Cost: 1.85 USD

Product Images

EPOXY RESIN INDUSTRIAL GLUE 4 METALS WOOD FIBERGLASS CONCRETE FDA COMPLIANTEPOXY RESIN INDUSTRIAL GLUE 4 METALS WOOD FIBERGLASS CONCRETE FDA COMPLIANTEPOXY RESIN INDUSTRIAL GLUE 4 METALS WOOD FIBERGLASS CONCRETE FDA COMPLIANTEPOXY RESIN INDUSTRIAL GLUE 4 METALS WOOD FIBERGLASS CONCRETE FDA COMPLIANTEPOXY RESIN INDUSTRIAL GLUE 4 METALS WOOD FIBERGLASS CONCRETE FDA COMPLIANTEPOXY RESIN INDUSTRIAL GLUE 4 METALS WOOD FIBERGLASS CONCRETE FDA COMPLIANTEPOXY RESIN INDUSTRIAL GLUE 4 METALS WOOD FIBERGLASS CONCRETE FDA COMPLIANTEPOXY RESIN INDUSTRIAL GLUE 4 METALS WOOD FIBERGLASS CONCRETE FDA COMPLIANTEPOXY RESIN INDUSTRIAL GLUE 4 METALS WOOD FIBERGLASS CONCRETE FDA COMPLIANTEPOXY RESIN INDUSTRIAL GLUE 4 METALS WOOD FIBERGLASS CONCRETE FDA COMPLIANTEPOXY RESIN INDUSTRIAL GLUE 4 METALS WOOD FIBERGLASS CONCRETE FDA COMPLIANTEPOXY RESIN INDUSTRIAL GLUE 4 METALS WOOD FIBERGLASS CONCRETE FDA COMPLIANT

Item Specifics

Restocking Fee: No

Return shipping will be paid by: Buyer

All returns accepted: Returns Accepted

Item must be returned within: 30 Days

Refund will be given as: Money Back

Non-Domestic Product: No

Expiration Date: 12 Months

Composite Glue: Bonds To Fiberglass, Carbon Fiber, Kevlar, Basalt

Sporting Equipment Glue: Adhesive For Golf Clubs, Fishing Rods Repair

Food Safe -FDA Compliant: Permanent Adhesive For Wood Turning

Metal To Metal Glue: Bonds To Aluminum, Steel, Brass, Copper

Custom Bundle: No

Country of Manufacture: United States

Marine Grade For Boat Building: Bonds To Wood Fiberglass Metals

MPN: MAXBOND32OZ

Modified Item: No

California Prop 65 Warning: PROP 65: This product contains less than 0.1% (trace amounts) of a chemical known to the State of California to cause cancer. Please review important safe handling information on the description page below. As with chemical products of the same nature, wear protective personal safety gear. All components of this product are listed in the TSCA Inventory or are exempt from TSCA Inventory requirements under 40 CFR 720.30. For more information. Visit https: www.p65warnings.ca.gov/

Waterproof And High Strength: Structural Bonding Applications

Brand: MAX EPOXY RESIN

Type: Epoxy Resin

Knife Scale Glue: Bonds To Wood, Micarta, Antler, Plastic, Epoxy

Unit Type: fl oz

Hobbies And RC Models: Glue For Drones, RC Scale Boats, Car, Airplanes

Model: MAX BOND MEDIUM VISCOSITY 36 Ounce Kit

Country/Region of Manufacture: United States

Concrete Patching: Fill Voids And Repair Cracks

Strong Glue For Recurve Bow: Laminating Wood Permanently

Unit Quantity: 32

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