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Ensinger PEI
Solvay FM® 680-1 Polyimide Film Adhesive
Categories: Polymer; Thermoset; Polyimide, TS; Polyimide, Thermoset Film
Material Notes: FM® 680-1 polyimide adhesive is a non-metallic version of FM 680 film adhesive designed for continuous service at temperature up to 700°F (371°C). FM 680-1 adhesive was specifically developed for radar transparent applications requiring extreme environmental durability. FM 680-1 adhesive is capable of bonding composite laminates and a wide variety of high temperature metallic substrates such as stainless steel and titanium while maintaining thermal oxidative stability. FM 680-1 adhesive is an excellent candidate for aircraft engine applications or for the bonding of new composite materials requiring co-cure or consolidation temperature up to 735°F (391°C). This adhesive is processible under standard manufacturing operations at temperatures as low as 600°F (316°C) and can handle freestanding post-cure up to 735°F (391°C). To achieve maximum performance in bonding prepared metallic details the use of BR® 680 primer is recommended. FM 680-1 adhesive is a non-aluminum-filled, condensation polyimide supported on fiberglass cloth. It is available in film, foam and paste forms. FM 680-1 adhesive utilizes the NR-150 B2 chemistry developed by DuPont.

Features & Benefits:

  • Radar transparent
  • 700°F (371°C) service temperature capability
  • Superior thermal oxidative stability
  • Condensation-type polyimide
  • 600°F (316°C) processing under standard manufacturing operations
  • Co-curable with Avimid® N and other polyimide composite materials
Applications:
  • Titanium bonding
  • Stainless steel bonding
  • Polyimide composite bonding

Information provided by Cytec, subsequently acquired by Solvay.
Vendors:
Available Properties
  • Volatiles
  • Storage Temperature
  • Shear Strength, 6AI-4V Titanium, Post-cure 16 hours at 600°F (316°C)
  • Shear Strength, 6AI-4V Titanium, Post-cure 16 hours at 700°F (371°C)
  • Shear Strength, Avimid N Laminate, Post-cure 16 hours at 700°F (371°C)
  • Shear Strength, 30 days immersion in JP-4 fuel at 120°F (49°C)
  • Shear Strength, 6AI-4V Titanium, Post-cure 16 hours at 600°F (316°C)
  • Shear Strength, 30 days at 160°F (71°C) and 100% RH
  • Shear Strength, 6AI-4V Titanium, Post-cure 16 hours at 700°F (371°C)
  • Shear Strength, 6AI-4V Titanium, Post-cure 16 hours at 700°F (371°C)
  • Shear Strength, Avimid N Laminate, Post-cure 16 hours at 700°F (371°C)
  • Shear Strength, 6AI-4V Titanium, Post-cure 16 hours at 600°F (316°C)
  • Shear Strength, 6AI-4V Titanium, Post-cure 16 hours at 600°F (316°C)
  • Shear Strength, 6AI-4V Titanium, Post-cure 16 hours at 700°F (371°C)
  • Shear Strength, 30 days at 160°F (71°C) and 100% RH
  • Shear Strength, 6AI-4V Titanium, Post-cure 16 hours at 700°F (371°C)
  • Shear Strength, 6AI-4V Titanium, Post-cure 16 hours at 700°F (371°C)
  • Shear Strength, 6AI-4V Titanium, Post-cure 16 hours at 600°F (316°C)
  • Shear Strength, 30 days immersion in JP-4 fuel at 120°F (49°C)
  • Shear Strength, Avimid N Laminate, Post-cure 16 hours at 700°F (371°C)
  • Shear Strength, 6AI-4V Titanium, Post-cure 16 hours at 700°F (371°C)
  • Shear Strength, 6AI-4V Titanium, Post-cure 16 hours at 700°F (371°C)
  • Shear Strength, 6AI-4V Titanium, Post-cure 16 hours at 600°F (316°C)
  • Shear Strength, Avimid N Laminate, Post-cure 16 hours at 700°F (371°C)
  • Shear Strength, 6AI-4V Titanium, Post-cure 16 hours at 600°F (316°C)
  • Shear Strength, 6AI-4V Titanium, Post-cure 16 hours at 600°F (316°C)
  • Shear Strength, 6AI-4V Titanium, Post-cure 16 hours at 700°F (371°C)
  • Shear Strength, Avimid N Laminate, Post-cure 16 hours at 700°F (371°C)
  • Shear Strength, 6AI-4V Titanium, Post-cure 16 hours at 600°F (316°C)
  • Shear Strength, Avimid N Laminate, Post-cure 16 hours at 700°F (371°C)
  • Shear Strength, Avimid N Laminate, Post-cure 16 hours at 700°F (371°C)
  • Shear Strength, 6AI-4V Titanium, Post-cure 16 hours at 600°F (316°C)
  • Shear Strength, Thermal Exposure at 371°C
  • Shear Strength, Thermal Exposure at 371°C
  • Shear Strength, Thermal Exposure at 343°C
  • Shear Strength, Thermal Exposure at 371°C
  • Shear Strength, Thermal Exposure at 343°C
  • Shear Strength, Thermal Exposure at 343°C
  • Shear Strength, Thermal Exposure at 343°C
  • Shear Strength, Thermal Exposure at 316°C
  • Shear Strength, Thermal Exposure at 316°C
  • Shear Strength, Thermal Exposure at 316°C
  • Shear Strength, Thermal Exposure at 343°C
  • Shear Strength, Thermal Exposure at 316°C
  • Shear Strength, Thermal Exposure at 316°C
  • Shear Strength, Thermal Exposure at 316°C
  • Shear Strength, Thermal Exposure at 343°C
  • Shear Strength, Thermal Exposure at 316°C
  • Shear Strength, Thermal Exposure at 316°C
  • Shear Strength, Thermal Exposure at 260°C
  • Shear Strength, Thermal Exposure at 260°C
  • Shear Strength, Thermal Exposure at 260°C
  • Shear Strength, Thermal Exposure at 260°C
  • Shear Strength, Thermal Exposure at 260°C
  • Shear Strength, Thermal Exposure at 260°C
  • Maximum Service Temperature, Air
  • Shelf Life
  
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Manufacturer Notes:
Solvay, former Rhodia Engineering Plastics

Category Notes
Plastic

Some of the values displayed above may have been converted from their original units and/or rounded in order to display the information in a consistent format. Users requiring more precise data for scientific or engineering calculations can click on the property value to see the original value as well as raw conversions to equivalent units. We advise that you only use the original value or one of its raw conversions in your calculations to minimize rounding error. We also ask that you refer to MatWeb's terms of use regarding this information. Click here to view all the property values for this datasheet as they were originally entered into MatWeb.

 

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