-40%

MARINE GRADE EPOXY GLUE NON-FLOWING VERY STRONG 4 CRACK REPAIR, PATCHING BOAT RV

$ 19.91

Availability: 310 in stock
  • Refund will be given as: Money Back
  • Modified Item: No
  • High Strength Glue: Bonds To Metals, Wood, Fiberglass, Plastics
  • Item must be returned within: 30 Days
  • Brand: MAX EPOXY RESIN SYSTEMS
  • Restocking Fee: No
  • Type: Boat Building Epoxy Glue, Structural Marine Grade
  • MPN: MAXTHIXO64OZ
  • Country/Region of Manufacture: United States
  • CONTROLLED VERTICAL FLOW: Use For Vertical Or Overhead Bonding & Patching
  • Return shipping will be paid by: Buyer
  • Completely Waterproof Upon Cure: For Underwater And Continuous Immersion
  • Condition: New
  • California Prop 65 Warning: EPA SARA Title III Section 313 (40 CFR 372) Component(s) above ‘de minimus’ level: None US California Safe Drinking Water & Toxic Enforcement Act Proposition 65: This product does not contain any chemicals known to the State of California to cause cancer, birth defects, or any other harm.
  • All returns accepted: Returns Accepted
  • Model: MAX BOND THIXOTROPIC A/B
  • Custom Bundle: Yes

    Description

    MAX BOND THIXOTROPIC A/B
    High Strength Epoxy Adhesive
    Thixotropic or
    Non-Sagging Consistency
    (Will Not Flow At Rest But Easily Spread)
    Half Gallon Combined Volume
    64 Fluid Ounces
    (1 Quart Resin And 1 Quart Curing Agent)
    Package In Wide Mouth Jars
    Up To 180 square Feet Per Gallon Coverage (0.010 Inch Thick
    Bond Line
    Thickness)
    High Strength Epoxy Adhesive For Wood, Metals, Concrete, Fiberglass, Plastics, Stone And Masonry
    DESCRIPTION
    MAX BOND THIXOTROPIC A/B is a two-part modified epoxy/polyamide based adhesive system specially formulated to provide structural bond strength to a variety of substrates. It is a thickened version of the MAX BOND System where flow control on a vertical or overhead application. When used in heat-cured applications, MAX BOND THIXOTROPIC A/B will demonstrate minimal or controlled flow eliminating excessive resin run-off and resulting in a clean adhesive placement.
    MAX BOND THIXOTROPIC A/B exhibits structural bond strengths to numerous substrates commonly used in composites industry such as steel, aluminum, metals and alloys, resin impregnated composites, and most plastics. It performs well in wide range of service temperature and resists cracking and delamination due to cyclic vibration, thermal expansion and contraction.
    The non-sagging (thixotropic) consistency allows for thin-film vertical and overhead application with minimal flow or drips. Upon cure, the repair can be sanded smooth or level with the base substrate and directly painted over. MAX BOND THIXOTROPIC demonstrates excellent waterproof performance for both salt and fresh water. It is suitable for repairs that will be subjected to continuous water immersion.
    Conforms To Hundreds of Aerospace/Military/Naval Materials Specifications
    MIL-A-8623 T1
    MS-511
    MMM-A-134 Type 1
    OS-9923A
    Boeing BMS-5-29
    NASA Requirements For Low Outgassing Polymers
    (<1% CVCM, collected volatile condensable material )
    Tested For Aerospace Application Under NASA Low Outgassing Specifications of less than 1% CVCM, TMLV requirement
    MAX BOND A/B SERIES VISCOSITY COMPARISON
    AVAILABLE IN THREE VERSIONS
    Conforms To Code Of Federal Regulations
    FDA CFR Title 21 175.300 For Direct/indirect Food Contact Adhesive
    Read the Code of Federal Regulation
    Important Guidelines For Food Contact Applications
    For food contact applications, MAX BOND THIXOTROPIC A/B must be fully cured to ensure no chemical leaching can occur when foodstuffs' come in contact with the cured resin system. Any uncured chemical compounds from the improperly prepared MAX BOND THIXOTROPIC may be extracted and cause cross-contamination or leaching during food contact. Please review the following and to avoid any curing problems.
    ·
    Check for resin crystallization. During the colder season, the MAX BOND THIXOTROPIC resin component or PART A may crystallize and must be heat-processed to fully polymerize the resin system. Inspect the PART A bottle for any turbidity or a solid mass that typically forms on the bottom of the bottle.
    Processing Crystallized Epoxy Resin
    Video will open in a new window
    Weigh or measure the components accurately at a 1:1 mix ratio.  Any off-ratio excess of either the resin or curing agent in the mixture can cause poor cure and can cause chemical leaching that can transfer to the food or beverage. Use a digital scale and weigh each component for best results, for example, 200 grams of MAX BOND THIXOTROPIC PART A will require 100 grams of
    MAX BOND THIXOTROPIC PART
    B. This digital scale is available on eBay for purchase.
    THE USE OF A WEIGHING SCALE IS HIGHLY RECOMMENDED TO ENSURE PROPER CURE
    Purchase This Scale With Any Of Our eBay Offering And Shipping Cost For The Scale Is Free
    https://www.ebay.com/itm/222630300203
    ·
    Mix the components thoroughly. Any unmixed component from poor mixing will result in poor polymerization and can be extracted and cross-contaminated the foodstuffs. Please view the following mixing demonstration below;
    SEE MIXING DEMO BELOW
    ·
    Allow the applied resin to fully cure for a minimum of 48 hours at 75°F before exposing the coating to any food or beverage.
    ·
    Heat cure to 170
    °F for 4 hours for faster cure time.
    ·
    Rinse the cured coating with warm water and mild detergent before allowing any food contact.
    POSSIBLE HEAT CURING TECHNIQUES
    If an oven is not available to provide the needed thermal post cure, exposing the assembled part to solar heat (sun exposure) for a short period will provide enough heat cure for the part to be handled.  Other heat curing such as infrared heat lamps can be used if a heat chamber or oven is not available.
    MAX BOND THIXOTROPIC A/B
    HONEYCOMB ADHESIVE CORE SPLICING AND EDGE CLOSE-OUT
    NON-SAG OR THIXOTROPIC VERSION FOR BONDING AND ADHESIVE APPLICATIONS
    MAX BOND THIXOTROPIC A/B 32 OUNCE KIT
    https://www.ebay.com/itm/222624260837
    MAX BOND THIXOTROPIC A/B 64 OUNCE KIT
    https://www.ebay.com/itm/311946479917
    MAX BOND THIXOTROPIC A/B 1 GALLON KIT
    https://www.ebay.com/itm/222624293631
    MAX BOND THIXOTROPIC A/B 2 GALLON KIT
    https://www.ebay.com/itm/222623988841
    Physical Properties
    Mixed Density
    1.10 gm/cc
    Form and Color
    Thixotropic Gel
    Part A – Resin
    White Thixotropic Liquid
    Part B - Curing Agent
    Amber Gel
    Viscosity Mixed
    135,624 cPs @ 77°F (25ºC)
    Mix Ratio
    Equal parts by volume or weight
    Working Time (200-gram mass)
    85 Minutes @ 77°F (25ºC)
    Peak Exotherm (200-gram mass)
    160°F
    Cure Time
    24 Hrs. Minimum
    Accelerated Cure
    2 Hours Room Temperature
    Plus 1 hour  212
    o
    F
    Mechanical Properties
    Hardness
    85 ± 5 Shore D
    Tee-Peel Strength
    4 Lbs. per inch Width
    Compressive Strength
    15,800 psi @ 77°F (25ºC)
    Tensile Shear Strength
    3,700 psi @ 77°F (25ºC)
    2,200 psi @ -112°F (-80ºC)
    1,450 psi @ 212°F (100ºC)
    Elongation Maximum Yield
    2.3%
    Tensile Strength
    8,800 psi
    Service Temperature
    -67°F to 250°F
    Thin Film Set Time
    120 minutes
    CHEMICAL RESISTANCE TEST
    10 Day Soak Test @ 77°F (25°C)
    Test Solvent
    % Change in weight
    Distilled Water
    .23
    Sulfuric Acid 30%
    1.9
    Nitric Acid
    3.8
    Toluene
    3.7
    Sodium Hydroxide
    10.00
    Anti-Freeze
    No Effect
    Motor Oil soak
    No Effect
    Viscosity Comparison Chart
    MATERIAL
    VISCOSITY (centipoises)
    Water @ 70° F
    1-5
    Blood or Kerosene
    10
    Anti-Freeze or Ethylene Glycol
    15
    Motor Oil SAE 10 or Corn Syrup
    50-100
    Motor Oil SAE 30 or Maple Syrup
    150-200
    Motor Oil SAE 40 or Castor Oil
    250-500
    Motor Oil SAE 60 or Glycerin
    1,000-2,000
    Corn Syrup or Honey
    2,000-3,000
    Black-strap
    Molasses
    5,000-10,000
    Hershey Chocolate Syrup
    10,000-25,000
    Heinz Ketchup or French’s Mustard
    50,000-70,000 THIXOTROPIC
    Tomato Paste or Peanut Butter
    150,000-200,000 THIXOTROPIC
    Crisco Shortening or Lard
    1,000,000-2,000,000
    Caulking Compound
    5,000,000-10,000,000
    Window Putty
    100,000,000+
    VOLUME AND WEIGHT FACTORS THAT RELATES TO ANY UNDILUTED EPOXY RESIN AS A GUIDE:
    1 GALLON = 231 CUBIC INCHES
    1 GALLON OF RESIN CAN COVERS 1608 SQUARE FEET
    1 MIL OR 0.001 INCH CURED COATING THICKNESS
    1 GALLON OF RESIN IS 128 OUNCES
    1 GALLON OF MIXED EPOXY RESIN IS 9.23 POUNDS
    1 GALLON OF RESIN IS 3.7854 LITERS
    Mixing Instructions
    Dispense equal parts of Part A and Part B and mix thoroughly until a homogeneous consistency is achieved. The mixture will turn translucent milky amber but will clarify when applied in a thin film during curing. Transfer the mixed resin into another clean container and mix for another minute and use.
    For mix metering application, ensure that an equal flow rate of Part A and Part B is achieved. A 24 element static mixer provides excellent mix results. Attach the static mixer and dispense and discard approximately 1-ounce material before using the material. Dispense the material in on the corner of the component casing and allow the material to completely flow throughout. This technique will reduce voids and air entrapment.
    The use of a weighing scale is highly recommended for proportioning the components. The resin systems used for direct food contact must yield absolute cure to ensure no chemical leaching can occur when the cured coating comes in contact with the foodstuff. Improper or poor mix ratio accuracy from using volumetric measurement may cause inaccuracy which may cause uncured components to leach from the applied coating. Use a digital scale to precisely weigh the resin and curing agent and ensure full polymerization of the resin and curing agent and prevent leaching.
    Step 1.  Measure Resin And Curing Agent Mix Ratio 1:1
    Step 2.
    Mix Gently But Thoroughly As Not Introduce Excessive Air Bubbles
    Step 3. Mix For 3 To 5 Minutes Or Until Uniform
    Step 4. Ready For Use, Apply With Brush Or Spread With Spatula
    Usage And Applications Instructions
    This item is a thickened version of the MAX BOND Medium Viscosity. It is specially formulated so that the adhesive will not flow, allowing the user precise and clean adhesive placement. MAX BOND THIXOTROPIC is paste-like in consistency. It is formulated for high-strength, permanent and waterproof bonding suitable many types of construction and fabrication use.
    Used In Hundreds Of Structural Bonding Applications
    Marine and Aircraft repair
    Fiberglass To Fiberglass Bonding
    Filleting Compound
    Rod Building
    Golf Club Assembly
    Concrete bonding, patching, sealing
    Electronic Potting, Insulating, Encapsulating
    Woodwork Bonding, Filleting For Corner Joints
    Composite Adhesive, Laminating
    Honeycomb Bonding and Edge Closeout
    MAX BOND THIXOTROPIC does not contain nonreactive plasticizer that can leach out over time.
    It is FDA compliant for direct and indirect food contact applications.
    Just measure out equal amounts of Part A and Part B, mix and apply and allow to cure overnight. It has a 90 minute working time and bonded parts can be handled within 6 hours to 8 hours after application. A strong bond will develop in 10 hours of room temperature curing and will fully cure within 24 to 36 hours. Heat curing is also ideal for MAX BOND
    THIXOTROPIC for a faster cure time and will maintain its non-flowing properties at elevated temperatures.
    The mixed consistency is similar to peanut butter and is easily applied using a brush, spatula, trowel or injected into place using a syringe.
    Surface Treatment Prior To Bonding
    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.
    METALS
    Degrease – 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 weight
    Sulfuric acid – 10 parts by weight
    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.
    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 PROCEDURE
    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.
    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.
    GLASS
    Degrease – 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.
    WOOD
    Sand – 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.
    Epoxy Resin have a definite working time (pot life), after mixing the components together. The working time is greatly affected by the amount of resin that is being mixed per batch. Other factors such as the ambient temperature of the environment and the temperature of the PART A and PART B respectively will also affect the rate of cure.
    There are two aspects that must be understood when working with epoxy resins once the curing agent and epoxy are combined:
    Working Time
    :  Relates to the time that the adhesive will provide the best performance when it is applied onto to the substrate. As the epoxy begins to polymerize, energy is typically released and its evidence can be observed as heat generation, called exothermic heat. Since heat can affect the viscosity and length of time that the adhesive convents for a liquid to a solid, spreading the adhesive into a film will prevent the heat energy from concentrating in the container and cause auto-acceleration.  To yield the full strength that was engineered into the epoxy resin, it important that the mixed resin is applied within the established working time.  An exponential decrease in mechanical properties and adhesion quality will be experienced the longer the mixed resin is left in a confined mass.
    Thin Film Set Time
    is the time duration which denotes the amount of time the resin will convert from a liquid to a solid. This time difference is typical 4 to 6 time longer than the working time. The generated exothermic heat energy is diffused into the ambient environment thus prevent it from generating any excessive heat energy that will auto accelerate the working time.
    Flame Treating Of Plastic To Improve Adhesion
    Flame Treating Of Plastics For Improved Wetting And Adhesion
    Video will open in a new window
    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. These types of substrates or are called LSE or Low Surface Energy substrates and 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.
    Using A Dyne Pen 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
    Joint Designs For Best Adhesion Performance
    Joint and Bonding And Design Suggestions
    Load Testing For Tensile Shear Strength of the  Adhesion
    Types of stress load
    For Concrete Koi Pond Construction And Repair
    Stones And Decorative Boulders Were Bonded In Place With
    MAX BOND THIXOTROPIC A/B
    Suitable For Continuous Under Water Applications
    Plywood Aquarium Construction With
    MAX BOND THIXOTROPIC A/B
    Adhesive Cures To
    Structural
    And Waterproof Bond
    500 Hundred Gallon Plywood Aquarium
    DON'T FORGET OUR EPOXY MIXING KIT
    Click The Link To Add To Order
    https://www.ebay.com/itm/222623932456
    EVERYTHING 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.
    T
    he 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 Cups
    4 Each 16-ounce (1 Pint) Clear HDPE Plastic Mix Cups
    One Size Fits All Powder-Free Latex Gloves
    2 Each Graduated Syringes
    Wooden Stir Sticks
    Assorted Size Foam Brush
    THANKS FOR STOPPING BY
    IMPORTANT NOTICE
    Your 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 of fitness for use, nor any other express implied warranty. The user's exclusive remedy and the manufacturer's liability are limited to the 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.