Solvay FM® 680 Polyimide Film Adhesive

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Solvay FM® 680 Polyimide Film Adhesive
Categories:	Polymer; Adhesive
Material Notes:	Description: FM® 680 is an aluminum filled, condensation-type polyimide supported on a fiberglass cloth. It is suitable for bonding titanium, stainless steel and cured polyimide composites structures. FM 680 can also be used for co-cure applications with high temperature composite materials. For priming prepared metal surface, BR® 680 adhesive primer is recommended. Features & Benefits: 700°F (371°C) service temperature 350°F (177°C) processing with elevated post-cure Superior thermal oxidative stability Condensation-type polyimide Co-curable with Avimid® N and other polyimide composite materials Does not contain methylene dianiline (MDA) Applications: Titanium bonding Stainless steel bonding Polyimide composite bonding Cure Cycle A: Cure 2 hours at 600°F (315°C) and 100 psi (0.69 MPa) Post-cure 16 hours at 755°F (402°C) Cure Cycle B: Cure 2 hours at 350°F (177°C) and 100 psi (0.69 MPa) Post-cure 2 hours at 700°F (371°C) Information provided by Cytec, subsequently acquired by Solvay.
Vendors:

Available Properties

Solids Content, primer
Volatiles
Storage Temperature
Shear Strength, Flatwise
Shear Strength, Bonded Under Repair-type Conditions
Shear Strength, Avimid N Laminate (0.10 in. thick), Cure Cycle A
Shear Strength, 6AI-4V Titanium (0.05 in. thick), Cure Cycle A
Shear Strength, 6AI-4V Titanium (0.05 in. thick), Cure Cycle A
Shear Strength, On 6 AI-4V Titanium, 30 days immersion in JP-4 fuel at 120°F (49°C)
Shear Strength, On 6 AI-4V Titanium, 30 days at 160°F (71°C) and 100% RH
Shear Strength, Avimid N Laminate (0.10 in. thick), Cure Cycle A
Shear Strength, 6AI-4V Titanium (0.05 in. thick), Cure Cycle B
Shear Strength, 6AI-4V Titanium (0.05 in. thick), Cure Cycle A
Shear Strength, Bonded Under Repair-type Conditions
Shear Strength, 6AI-4V Titanium (0.05 in. thick), Cure Cycle B
Shear Strength, 6AI-4V Titanium (0.05 in. thick), Cure Cycle A
Shear Strength, 6AI-4V Titanium (0.05 in. thick), Cure Cycle B
Shear Strength, 6AI-4V Titanium (0.05 in. thick), Cure Cycle A
Shear Strength, On 6 AI-4V Titanium, 30 days at 160°F (71°C) and 100% RH
Shear Strength, 6AI-4V Titanium (0.05 in. thick), Cure Cycle B
Shear Strength, 6AI-4V Titanium (0.05 in. thick), Cure Cycle B
Shear Strength, 6AI-4V Titanium (0.05 in. thick), Cure Cycle A
Shear Strength, On 6 AI-4V Titanium, 30 days immersion in JP-4 fuel at 120°F (49°C)
Shear Strength, Bonded Under Repair-type Conditions
Shear Strength, Bonded Under Repair-type Conditions
Shear Strength, Avimid N Laminate (0.10 in. thick), Cure Cycle A
Shear Strength, 6AI-4V Titanium (0.05 in. thick), Cure Cycle B
Shear Strength, Bonded Under Repair-type Conditions
Shear Strength, Avimid N Laminate (0.10 in. thick), Cure Cycle A
Shear Strength, 6AI-4V Titanium (0.05 in. thick), Cure Cycle A
Shear Strength, 6AI-4V Titanium (0.05 in. thick), Cure Cycle B
Shear Strength, 6AI-4V Titanium (0.05 in. thick), Cure Cycle A
Shear Strength, Avimid N Laminate (0.10 in. thick), Cure Cycle A
Shear Strength, Avimid N Laminate (0.10 in. thick), Cure Cycle A
Shear Strength, Bonded Titanium Substrates Thermal Exposure 316°C
Shear Strength, Bonded Titanium Substrates Thermal Exposure 316°C
Shear Strength, Bonded Titanium Substrates Thermal Exposure 343°C
Shear Strength, Bonded Titanium Substrates Thermal Exposure 343°C
Shear Strength, Thermal Exposure 371°C, 6AI-4V Titanium (0.05 in. thick), Cure Cycle B
Shear Strength, Thermal Exposure 371°C, 6AI-4V Titanium (0.05 in. thick), Cure Cycle B
Shear Strength, Bonded Titanium Substrates Thermal Exposure 316°C
Shear Strength, Bonded Titanium Substrates Thermal Exposure 288°C
Shear Strength, Bonded Titanium Substrates Thermal Exposure 288°C
Shear Strength, Thermal Exposure 371°C, 6AI-4V Titanium (0.05 in. thick), Cure Cycle B
Shear Strength, Thermal Exposure 371°C, 6AI-4V Titanium (0.05 in. thick), Cure Cycle B
Shear Strength, Thermal Exposure 371°C, Avimid N Laminate (0.10 in. thick), Cure Cycle A
Shear Strength, Thermal Exposure 371°C, 6AI-4V Titanium (0.05 in. thick), Cure Cycle B
Shear Strength, Bonded Titanium Substrates Thermal Exposure 343°C
Shear Strength, Bonded Titanium Substrates Thermal Exposure 343°C
Shear Strength, Bonded Titanium Substrates Thermal Exposure 316°C
Shear Strength, Bonded Titanium Substrates Thermal Exposure 343°C
Shear Strength, Thermal Exposure 316°C, Avimid N Laminate (0.10 in. thick), Cure Cycle A
Shear Strength, Bonded Titanium Substrates Thermal Exposure 316°C
Shear Strength, Bonded Titanium Substrates Thermal Exposure 288°C
Shear Strength, Bonded Titanium Substrates Thermal Exposure 288°C
Shear Strength, Bonded Titanium Substrates Thermal Exposure 288°C
Shear Strength, Bonded Titanium Substrates Thermal Exposure 316°C
Shear Strength, Thermal Exposure 371°C, Avimid N Laminate (0.10 in. thick), Cure Cycle A
Shear Strength, Bonded Titanium Substrates Thermal Exposure 343°C
Shear Strength, Bonded Titanium Substrates Thermal Exposure 316°C
Shear Strength, Bonded Titanium Substrates Thermal Exposure 260°C
Shear Strength, Bonded Titanium Substrates Thermal Exposure 260°C
Shear Strength, Thermal Exposure 316°C, 6AI-4V Titanium (0.05 in. thick), Cure Cycle B
Shear Strength, Bonded Titanium Substrates Thermal Exposure 288°C
Shear Strength, Bonded Titanium Substrates Thermal Exposure 288°C
Shear Strength, Bonded Titanium Substrates Thermal Exposure 288°C
Shear Strength, Bonded Titanium Substrates Thermal Exposure 260°C
Shear Strength, Bonded Titanium Substrates Thermal Exposure 260°C
Shear Strength, Bonded Titanium Substrates Thermal Exposure 260°C
Shear Strength, Bonded Titanium Substrates Thermal Exposure 260°C
Shear Strength, Bonded Titanium Substrates Thermal Exposure 260°C
Shear Strength, Bonded Titanium Substrates Thermal Exposure 260°C
Shear Strength, Thermal Exposure 316°C, 6AI-4V Titanium (0.05 in. thick), Cure Cycle B
Shear Strength, Bonded Titanium Substrates Thermal Exposure 316°C
Shear Strength, Thermal Exposure 371°C, Avimid N Laminate (0.10 in. thick), Cure Cycle A
Shear Strength, Thermal Exposure 316°C, Avimid N Laminate (0.10 in. thick), Cure Cycle A
Maximum Service Temperature, Air
Shelf Life

Property Data

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Manufacturer Notes:
Solvay, former Rhodia Engineering Plastics

Category Notes
Plastic

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