Geometrical characterization of perlite-metal syntactic foam

• A new method for identification of pores in porous materials was developed.
• It was applied on perlite-metal syntactic foam samples.
• A porosity decrease in the axial direction of the samples was determined.
• Pore shape analysis showed a high percentage of spherical pores.
• Orientation analysis showed that more pores are oriented in the radial direction.

This paper introduces an improved method for the detailed geometrical characterization of perlite-metal syntactic foam. This novel metallic foam is created by infiltrating a packed bed of expanded perlite particles with liquid aluminium alloy. The geometry of the solidified metal is thus defined by the perlite particle shape, size and morphology. The method is based on a segmented micro-computed tomography data and allows for automated determination of the distributions of pore size, sphericity, orientation and location. The pore (i.e. particle) size distribution and pore orientation is determined by a multi-criteria k-nearest neighbour algorithm for pore identification. The results indicate a weak density gradient parallel to the casting direction and a slight preference of particle orientation perpendicular to the casting direction.

Figure optionsDownload as PowerPoint slide