MatWeb - Material Property Data Advertise with MatWeb!     Register Now
Data sheets for over 180,000 metals, plastics, ceramics, and composites.
MatWeb - Material Property Data HOME  •   SEARCH  •   TOOLS  •   SUPPLIERS  •   FOLDERS  •   ABOUT US  •   FAQ  •   LOG IN    
Recently Viewed Materials (most recent at top)  

Login to see your most recently viewed materials here.

Or if you don't have an account with us yet, then click here to register.

  Searches:   Advanced  | Category  | Property  | Metals  | Trade Name  | Manufacturer  | Recently Viewed Materials
  

Metalmen Sales

Cymat A35620SC 020SS Stabilized Aluminum Foam
Categories: Metal; Metal Foam, Mesh, or Honeycomb; Metal Matrix Composite; Nonferrous Metal; Aluminum Alloy; Other Engineering Material; Composite Core Material
Material Notes: Cymat A35620SC 020SS stabilized aluminum foam (SAF) is a closed cell aluminum foam formed from A356 aluminum alloy with a density of 0.2 g/cm3. The mechanical properties of SAF make it ideal for many varied applications. These properties include:
  • High strength and stiffness to-weight ratio
  • Strain rate insensitive (the speed of loading does not affect the strength)
  • Notch insensitive (holes do not affect material strength)
  • Constant properties over time, temperature and moisture range
  • High mechanical energy absorption in all directions
  • Not flammable or susceptible to environmental degradation
  • Acoustic and thermal insulation properties
  • Electromagnetic insulation properties
  • Recyclable

Applications:

  • Energy absorption for vehicle crashworthiness
  • Energy absorption for blast protection
  • Structural stability
  • Core for a casting

Information provided by Cymat.
Key Words: SAF
Vendors: No vendors are listed for this material. Please click here if you are a supplier and would like information on how to add your listing to this material.
 
Physical PropertiesMetricEnglishComments
Density 0.200 g/cc0.00723 lb/in³
Cell Length 7.00 mm0.276 inAverage Cell Size
 
Mechanical PropertiesMetricEnglishComments
Tensile Strength, Ultimate 0.700 MPa102 psiThrough Plane Direction
 0.900 MPa131 psiFoaming Direction
 1.50 MPa218 psiIn Plane Direction
Elongation at Break 0.20 %0.20 %Through Plane Direction
 0.20 %0.20 %Foaming and In Plane Directions
Tensile Modulus 0.230 GPa33.4 ksiThrough Plane Direction
 0.450 GPa65.3 ksiFoaming Direction
 0.700 GPa102 ksiIn Plane Direction
Compressive Yield Strength 0.300 - 1.00 MPa43.5 - 145 psiThrough Plane Direction
Compressive Strength 1.20 MPa174 psiIn the Foaming Direction
 1.60 MPa232 psiIn the In Plane Direction
Compressive Modulus 0.185 GPa26.8 ksiLoading, In the Through Plane Direction
 0.200 GPa29.0 ksiLoading, In the Foaming Direction
 0.230 GPa33.4 ksiUnloading, In the Through Plane Direction
 0.270 GPa39.2 ksiLoading, In the In Plane Direction
 0.500 GPa72.5 ksiUnloading, In the Foaming Direction
 0.600 GPa87.0 ksiUnloading, In the In Plane Direction
Shear Modulus 0.200 GPa29.0 ksi
Shear Strength 0.500 MPa72.5 psi
Impact 0.110.11MJ/m3, Volumetric Energy Absorption (compression) at 20% Strain in the Through Plane Direction
 0.150.15MJ/m3, Volumetric Energy Absorption (compression) at 20% Strain in the Foaming Direction
 0.230.23MJ/m3, Volumetric Energy Absorption (compression) at 20% Strain in the In Plane Direction
 0.450.45MJ/m3, Volumetric Energy Absorption (compression) at 50% Strain in the Through Plane Direction
 0.500.50MJ/m3, Volumetric Energy Absorption (compression) at 50% Strain in the Foaming Direction
 0.600.60kJ/kg, Specific Energy Absorption (compression) at 20% Strain in the Through Plane Direction
 0.670.67MJ/m3, Volumetric Energy Absorption (compression) at 50% Strain in the In Plane Direction
 0.800.80kJ/kg, Specific Energy Absorption (compression) at 20% Strain in the Foaming Direction
 1.21.2kJ/kg, Specific Energy Absorption (compression) at 20% Strain in the In Plane Direction
 2.32.3kJ/kg, Specific Energy Absorption (compression) at 50% Strain in the Through Plane Direction
 2.52.5kJ/kg, Specific Energy Absorption (compression) at 50% Strain in the Foaming Direction
 3.33.3kJ/kg, Specific Energy Absorption (compression) at 50% Strain in the In Plane Direction
 
Thermal PropertiesMetricEnglishComments
Thermal Conductivity 1.48 W/m-K10.3 BTU-in/hr-ft²-°F
Maximum Service Temperature, Air 300 °C572 °F
Minimum Service Temperature, Air -80.0 °C-112 °F
 
Descriptive Properties
Densification Strain80 %
Shear Failure Strain0.2 %

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.

Users viewing this material also viewed the following:
ERG Aerospace Duocel® Aluminum Metal Foam
Cymat A35620SC 040SS Stabilized Aluminum Foam
Cymat A35620SC 030SS Stabilized Aluminum Foam
Hexcel® HexWeb® CR III 1/16-5052-.0015 Corrosion Resistant Specification Grade Aluminum Honeycomb
Hexcel® HexWeb® CR III 1/8-5052-.002 Corrosion Resistant Specification Grade Aluminum Honeycomb

NCYMAT0 / 16072

New MatWeb Services




Searches:   Advanced  •   Composition  •   Property  •   Material Type  •   Manufacturer  •   Trade Name  •   UNS Number
Other Links:   Advertising  •   Submit Data  •   Database Licensing  •   Web Design & Hosting  •   Trade Publications
Supplier List  •   Unit Converter  •   Reference  •   Links  •   Help  •   Contact Us  •   Site Map  •   FAQ  •   Home
 
Please read our License Agreement regarding materials data and our Privacy Policy. Questions or comments about MatWeb? Please contact us at info@matweb.com. We appreciate your input.

The contents of this web site, the MatWeb logo, and "MatWeb" are Copyright 1996-2025 by MatWeb, LLC. MatWeb is intended for personal, non-commercial use. The contents, results, and technical data from this site may not be reproduced either electronically, photographically or substantively without permission from MatWeb, LLC.