7 result(s) using Focused Search for substance: consolidated aluminum
If you didn't find what you were looking for, see more results.
Properties:
Young's modulus
7 result(s) using Focused Search for substance: consolidated aluminum
If you didn't find what you were looking for, see more results.
Properties: Young's modulus
  1. Metal foam

    Aluminium (porosity 85%)

    • Porosity: 85%; Average pore size: 2.4 mm; Foam type: Closed cell.
      Melt foaming method. Aluminum foam with 0% content of multi-walled carbon nanotubes(MWCNTs). The pore structure is homogeneous.
  2. Metal foam

    Aluminium (porosity 85%)

    • Porosity: 85%; Average pore size: 2.4 mm; Foam type: Closed cell.
      Melt foaming method. Aluminum foam with 0.2% content of multi-walled carbon nanotubes(MWCNTs). The pore structure is homogeneous.
  3. Metal foam

    Aluminium (porosity 85%)

    • Porosity: 85%; Average pore size: 2.4 mm; Foam type: Closed cell.
      Melt foaming method. Aluminum foam with 0.5% content of multi-walled carbon nanotubes(MWCNTs). The pore structure is homogeneous.
  4. Metal foam

    Aluminium (porosity 85%)

    • Porosity: 85%; Average pore size: 2.4 mm; Foam type: Closed cell.
      Melt foaming method. Aluminum foam with 0.8% content of multi-walled carbon nanotubes(MWCNTs). The pore structure is homogeneous.
  5. Metal foam

    Aluminium (porosity 85%)

    • Porosity: 85%; Average pore size: 2.4 mm; Foam type: Closed cell.
      Melt foaming method. Aluminum foam with 1.0% content of multi-walled carbon nanotubes(MWCNTs). The pore structure is homogeneous.
  6. Landolt-Börnstein

    Current Advancements in Ceramic Matrix Composites

    Ceramic materials have excellent strength and thermal stability. However, the brittleness is a major barrier to these monolithic ceramics. Therefore, various particulates, i.e., whisker, fibers, or fabric ma...
  7. Landolt-Börnstein

    Mechanical and physical properties of alloys and metals

    The detailed description about the mechanical and physical properties of different alloys and heavy metals are given in this chapter. Young's modulus, thermal conductivity, specific heat capacity, thermal ex...
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