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Master Bond adhesives

General Plastics LAST-A-FOAM® FR-3808 FST Polyurethane Foam
Categories: Other Engineering Material; Composite Core Material; Polymer; Thermoset; Polyurethane, TS; Thermoset Polyurethane Foam, Unreinforced

Material Notes: Product Description: FR-3800 FST is a halogen-free polyurethane-based foam that is compliant with fire, smoke and toxicity (FST) requirements, Ohio State University (OSU) 65/65 heat release standards for aerospace interior applications and REACH regulation. It is available in a wide range of densities, from 3 to 40 pounds per cubic foot, and sheet thickness of up to 24 inches. Custom sizes and thickness are also available. The FR-3800 FST can be thermoformed, easily machined and bonded. It withstands process temperatures up to 310° Fahrenheit, which provides a larger processing window to manufacture composite parts. This FST performance core series exhibits high strength-to-weight ratio due to its cellular and cross-linked structure. It meets the mechanical property requirements for core and structural FST applications without the high cost associated with alternative materials such as thermoplastic foams and honeycomb. With the FR-3800 FST, design and performance goals are achieved while meeting fire safety requirements.

Features:

  • Passes fire, smoke and toxicity (FST) Requirements
  • Meets OSU 65/65 heat release standards
  • Sheet thickness up to 24 inches
  • Thermoformable into simple curves
  • Shapes easily with common machining methods
  • Bonds well with composite skins
  • Withstands process temperatures up to 310° Fahrenheit
  • Resistant to water absorption
  • Resistant to most chemicals and solvents
  • Will not support fungal growth
  • No edge-closing or filling needed
Applications:
  • First-class seating pods
  • Sandwich core for aircraft interior components: Ceiling panels; Wall panels; Floor ramps; Door panels; Hard points in composite panels; Passenger cabin class dividers
  • Lightweight flyaway parts
  • Edge closeouts
  • Support/shim pieces

Information provided by General Plastics Manufacturing Company

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Physical PropertiesMetricEnglishComments
Density 0.128 g/cc0.00462 lb/in³ASTM D1622
 
Mechanical PropertiesMetricEnglishComments
Tensile Strength 1.06 MPa154 psiPerpendicular to Rise; ASTM D1623
 1.23 MPa178 psiParallel to Rise; ASTM D1623
Flexural Strength 1.54 MPa224 psiRise Parallel to Test Span; ASTM D790 Method 1-A
 1.56 MPa226 psiRise Parallel to Beam Thick.; ASTM D790 Method 1-A
Flexural Modulus 0.04964 GPa7.199 ksiRise Parallel to Test Span; ASTM D790 Method 1-A
 0.0500 GPa7.25 ksiRise Parallel to Beam Thick.; ASTM D790 Method 1-A
Compressive Strength  0.772 MPa
@Temperature 121 °C
112 psi
@Temperature 250 °F
Perpendicular to Rise; ASTM D1621
 0.903 MPa
@Temperature 121 °C
131 psi
@Temperature 250 °F
Parallel to Rise; ASTM D1621
 1.19 MPa
@Temperature 23.9 °C
173 psi
@Temperature 75.0 °F
Perpendicular to Rise; ASTM D1621
 1.51 MPa
@Temperature 23.9 °C
219 psi
@Temperature 75.0 °F
Parallel to Rise; ASTM D1621
Compressive Modulus  0.02441 GPa
@Temperature 121 °C
3.541 ksi
@Temperature 250 °F
Perpendicular to Rise; ASTM D1621
 0.02899 GPa
@Temperature 121 °C
4.204 ksi
@Temperature 250 °F
Parallel to Rise; ASTM D1621
 0.03434 GPa
@Temperature 23.9 °C
4.981 ksi
@Temperature 75.0 °F
Perpendicular to Rise; ASTM D1621
 0.04753 GPa
@Temperature 23.9 °C
6.894 ksi
@Temperature 75.0 °F
Parallel to Rise; ASTM D1621
Shear Strength 0.676 MPa98.0 psiRise Parallel to Specimen Width; ASTM C273
 0.717 MPa104 psiRise Parallel to Specimen Thickness; ASTM C273
 
Thermal PropertiesMetricEnglishComments
CTE, linear 52.2 µm/m-°C
@Temperature -45.6 - 93.3 °C
29.0 µin/in-°F
@Temperature -50.0 - 200 °F
GP Method
Thermal Conductivity 0.0353 W/m-K0.245 BTU-in/hr-ft²-°FASTM C518
Glass Transition Temp, Tg 149 °C300 °FASTM E1824
 
Descriptive Properties
Tumbling Friability (%)1120 mins at 60 rpm, ASTM C421
Water Absorption0.006 lbs/ft²ASTM D2842

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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PGENR018 / 186804

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