Grain consolidation and electrical conductivity in porous media.

[1]  R. Alben,et al.  Anisotropy of structural models for amorphous materials , 1976 .

[2]  J. Banavar,et al.  Resistance of Random Walks , 1983 .

[3]  P. N. Sen,et al.  A self-similar model for sedimentary rocks with application to the dielectric constant of fused glass beads , 1981 .

[4]  James G. Berryman,et al.  Random close packing of hard spheres and disks , 1983 .

[5]  D. Stauffer Scaling Theory of Percolation Clusters , 1979, Complex Media and Percolation Theory.

[6]  J. D. Bernal,et al.  Geometry of the Structure of Monatomic Liquids , 1960, Nature.

[7]  C. Scala,et al.  Tortuosity and Acoustic Slow Waves , 1982 .

[8]  G. E. Archie The electrical resistivity log as an aid in determining some reservoir characteristics , 1942 .

[9]  Alan R. Kerstein,et al.  Critical Properties of the Void Percolation Problem for Spheres , 1984 .

[10]  Joel Koplik,et al.  Conductivity and permeability of rocks , 1984 .

[11]  R. L. Coble,et al.  Sintering Crystalline Solids. I. Intermediate and Final State Diffusion Models , 1961 .

[12]  Brian Evans,et al.  Permeability, porosity and pore geometry of hot-pressed calcite , 1982 .

[13]  J. Finney,et al.  An optical machine for measuring sphere coordinates in random packings , 1970 .

[14]  David Wilkinson,et al.  Enhancement of the dielectric constant near a percolation threshold , 1983 .

[15]  Alan R. Kerstein,et al.  Equivalence of the void percolation problem for overlapping spheres and a network problem , 1983 .