Parker Lord 406 w/ Accelerator 19GB

Parker Lord 406 w/ Accelerator 19GB Datasheet
  • Description for Parker Lord 406 w/ Accelerator 19GB

    Modified acrylic adhesive, offers high impact and peel resistance, and medium working time.

    *See Terms of Use Below

    Application Type Bond
    1 Part or 2 Part 2 Part
    Material Form Paste
    Substrate Acrylic, Aluminum, A wide variety of prepared metals, Engineered plastics, Polycarbonate, Galvanized steel, Powder coated steel, Galvanized steel, A wide variety of unprepared metals, ABS
    Industry Riveting, Trailer, Heavy-Duty Truck
    Manufacturer Parker Lord
    Chemistry Acrylic
    Cure Method 2-Part Cure, Room temperature cure
    Cure Temperature (°C) 24, 20 to 25 Room temperature
    Cure Time (min) 120, 1,440
    Viscosity (cPs) Non-sag, 100,000 to 300,000
    Color Light Green, Off White, Tan
    Chemical Resistance Resists alkalis, Resists greases, Resists oils, Resists dilute acids, Resists salt spray
    Relative Solvent Resistance Chemical Resistance: Resists solvents
    High Temperature Resistance (°C) 149
    Low Temperature Resistance (°C) -40
    Density (g/cm³) 1.090 to 1.162, High
    Key Specifications UL 746C certified
  • Technical Data for Parker Lord 406 w/ Accelerator 19GB

    Overview
    • Application Type
    • 1 Part or 2 Part
      • 1 Part or 2 Part - 2 Part
    • Material Form
      • Paste
    • Substrate
      • Metal - A wide variety of prepared metals, A wide variety of unprepared metals
      • Aluminum
      • Steel - Powder coated steel
      • Galvanized - Galvanized steel
      • Plastic - Engineered plastics, ABS
      • Acrylic (PMMA) - Acrylic
      • Polycarbonate
      • Galvanized Steel
      • Other - Xenoy
    • Industry
      • Rivet - Riveting
      • Trailer
      • Heavy-Duty Truck
      • Other - Replace welding, Brazing, Other mechanical fastening methods
    • Chemistry
    • Application Method
      • Dispenser - Automatic meter/Mix/Dispense Equipment
      • Other - Handheld Cartridges
    • Cure Method
      • Room Temperature / Air Dry - Room temperature cure
      • 2-Part Cure
    • Color
      • Brown - Tan
      • Green - Light Green
      • Off-White - Off White
    • Key Specifications
      • UL (Underwriters Laboratory), ULC (Underwriters Laboratories of Canada), NFPA (National Fire Protection Association) - UL 746C certified
    Specifications
    Cure Specs
    Cure Temperature (°C) 24, 20 to 25 Room temperature
    Cure Time (min) 120, 1,440
    Viscosity (cPs) Non-sag, 100,000 to 300,000 Test Method
    Fixture or Handling Strength Time (min) Fast, 12 to 17 Test Method
    Set Time (min) Medium
    Work / Pot Time (min) 6 to 10, Medium Test Method
    Mix Ratio 4:1 (by volume), 2.91:1 (by weight)
    Bond Strength
    Structural/Load-Bearing Structural/load-bearing
    Peel Strength (piw) Highest, 37 (pli), 22 (pli), 26 (pli), Peel resistance Test Method
    Shear Strength (psi) 3,000, 1,500, 2,650, 2,900, 3,000, 2,500, 1,830, 2,500, 2,450, 2,800, 2,800, 1,050, 1,470, 2,400, 3,300, 1,000, 350 Test Method
    Impact Strength (psi) Highest
    Tensile Strength (psi) 2,700 Test Method
    Material Resistance
    Chemical Resistance Resists alkalis, Resists greases, Resists oils, Resists dilute acids, Resists salt spray
    Relative Solvent Resistance Chemical Resistance: Resists solvents
    UV Resistance Excellent resistance to indirect UV exposure
    Environmental Resistance Excellent, Resists weathering
    High Temperature Resistance (°C) 149
    Impact Resistance Impact resistance
    Low Temperature Resistance (°C) -40
    Moisture/Humidity Resistance Resists moisture
    Hardness
    Elongation (%) 30 Test Method
    Flexibility Flexible
    Modulus (psi) 130,000 Test Method
    Other Properties
    Glass Transition Temp (Tg) (°C) 72 Test Method
    Flash Point (°F) 59.0 Test Method
    % Solids (%) 100
    Density (g/cm³) 1.090 to 1.162, High
    Business Information
    Shelf Life Details Typical shelf life is nine months when stored below 80°F (27°C) in original, unopened container. Storage temperatures of 40-50°F (4-10°C) are recommended. If stored cold, allow product to return to room temperature before using. Protect from exposure to direct sunlight.
    Shelf Life Temperature (°F) <81
    Shelf Life Type From the date of shipment
    Shelf Life (mon) 9
  • Best Practices for Parker Lord 406 w/ Accelerator 19GB

    *See Terms of Use Below

    1. Surface Preparation

      Remove grease, loose contamination or poorly adhering oxides from metal surfaces. Normal amounts of mill oils and drawing compounds usually do not present a problem in adhesion. Most plastics require a simple cleaning before bonding. Some may require abrading for optimum performance.

    2. Application

      Apply adhesive using handheld cartridges or automatic meter/mix/dispense equipment

      Handheld Cartridges: Load the cartridge into the applicator gun and remove the end caps.

      Level the plungers by expelling a small amount of adhesive to ensure both sides are level.

      Attach mixing tip and expel a mixer’s length of adhesive.

      Apply adhesive to substrate and mate the parts within the working time of the adhesive. Clamp in position until adhesive reaches handling strength.

      Do not re-expose adhesive to air once parts are mated. Mated parts should be repositioned by sliding to achieve proper alignment.

      Meter/Mix/Dispense Equipment Contact your LORD representative if assistance is needed using this equipment.

    3. Mixing

      Mix LORD 403, 406 or 410 acrylic adhesive with the proper amount of LORD Accelerator 19 or 19GB. Handheld cartridges will automatically dispense the correct volumetric ratio of each component. Even color distribution visually indicates a thorough mix. Once mixed, the adhesive cures rapidly.

    4. Curing

      Cure begins immediately once adhesive and accelerator are mixed. Time to handling strength is dependent on adhesive used. Complete cure requires 24 hours at room temperature. Mating surfaces must be held in contact during the entire curing process. Cure rate can be accelerated by applying modest heat [<150°F (<66°C)]. Cured adhesive is colored to visually indicate a full cure

      cure color depends on the accelerator used.

    5. Clean-Up

      Clean equipment and tools prior to the adhesive cure with solvents such as isopropyl alcohol, acetone or methyl ethyl ketone (MEK). Once adhesive is cured, heat the adhesive to 400°F (204°C) or above to soften the adhesive. This allows the parts to be separated and the adhesive to be more easily removed.

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    *See Terms of Use Below

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Fixture or Handling Strength Time Test Methods
Fixture or Handling Strength Time Fixture-Handling Strength Test Method Fixture-Handling Strength Time Temperature
Fast
12 to 17 min Time to Handling Strength, 50 psi Shear 24°C
Viscosity Test Methods
Viscosity Test Method Temperature
Non-sag
100,000 to 300,000 cPs Brookfield, Data is typical and not to be used for specification purposes. 25°C
Work / Pot Time Test Methods
Work / Pot Time Test Method Temperature
6 to 10 min 24°C
Medium Working Time
Peel Strength Test Methods
Peel Strength Type Substrate Test Method
Highest
37 (pli) T-Peel Aluminum to Aluminum Cohesive Failure
22 (pli) T-Peel Galvanized Steel to Galvanized Steel Cohesive Failure
26 (pli) T-Peel Powder Coated Steel to Powder Coated Steel Cohesive Failure
Peel resistance
Tensile Strength Test Methods
Tensile Strength Test Method
2,700 psi Tensile Strength at Break, ASTM D638, modified
Shear Strength Test Methods
Shear Strength Type Substrate Test Time Test Temperature Test Method
3,000 psi Lap Shear Strength Aluminum to Aluminum 25°C Cohesive Failure
1,500 psi Lap Shear Strength Aluminum to Aluminum 82°C Thin Layer Cohesive Failure
2,650 psi Lap Shear Strength Aluminum to Aluminum >86,400 sec Thin Layer Cohesive Failure, after 500 hours Salt Spray , Test after 24 hours
2,900 psi Lap Shear Strength Aluminum to Aluminum >1,209,600 sec 38°C Cohesive Failure, after 14 days @ 100°F (38°C), 100% RH
3,000 psi Lap Shear Strength Aluminum to Aluminum -34°C Cohesive Failure
2,500 psi Lap Shear Strength Galvanized Steel to Galvanized Steel 25°C Cohesive Failure
1,830 psi Lap Shear Strength Galvanized Steel to Galvanized Steel 82°C Thin Layer Cohesive Failure
2,500 psi Lap Shear Strength Galvanized Steel to Galvanized Steel >86,400 sec Thin Layer Cohesive Failure, after 500 hours Salt Spray, Test after 24 hours
2,450 psi Lap Shear Strength Galvanized Steel to Galvanized Steel >1,209,600 sec 38°C Cohesive Failure, after 14 days @ 100°F (38°C), 100% RH
2,800 psi Lap Shear Strength Galvanized Steel to Galvanized Steel -34°C Cohesive Failure
2,800 psi Lap Shear Strength Powder Coated Steel to Powder Coated Steel 25°C Cohesive Failure
1,050 psi Lap Shear Strength Powder Coated Steel to Powder Coated Steel 82°C Coating Failure
1,470 psi Lap Shear Strength Powder Coated Steel to Powder Coated Steel >86,400 sec Coating Failure, after 500 hours Salt Spray, Test after 24 hours
2,400 psi Lap Shear Strength Powder Coated Steel to Powder Coated Steel >1,209,600 sec 38°C Cohesive Failure, after 14 days @ 100°F (38°C), 100% RH
3,300 psi Lap Shear Strength Powder Coated Steel to Powder Coated Steel -34°C Coating Failure
1,000 psi Lap Shear Strength ABS to ABS 25°C Stock Break
350 psi Lap Shear Strength ABS to ABS 82°C Stock Break
Elongation Test Methods
Elongation Test Method
30 %
Modulus Test Methods
Modulus Test Method
130,000 psi
Flash Point Test Methods
Flash Point Test Method
15.0°C (Closed Cup)
Glass Transition Temp (Tg) Test Methods
Glass Transition Temp (Tg) Glass Transition Temperature (Tg) Test Method
72°C ASTM E1640-99, by DMA