In the past two decades, several experimental and simulation studies have proposed simple empirical relations between projected two-dimensional (2-D) and three-dimensional (3-D) structural properties of fractal-like aggregates in the cluster–dilute regime. These empirical relations have found extensive use in inferring the 3-D structural properties of aggregates from their projected (i.e., 2-D) properties—measurable from aggregate electron microscopy images. This study probes the limitations and nongeneralizability of these simple and straightforward empirical relationships and proposes replacing them with new empirical formulas. A straightforward empirical relationship for directly determining the 3-D fractal dimension (Df ) of an aggregate from the knowledge of its 2-D aspect ratio is also identified. These new relationships were derived by comparing the ratios of several 2-D and 3-D structural properties of a statistically significant number of simulated aggregates with point-contacting monomers as a function of their 3-D Df ranging from 1.0 to 3.0 in increments of 0.1.
Simulation of Aggregates with Point-Contacting Monomers in the Cluster–Dilute Regime. Part 2: Comparison of Twoand Three-Dimensional Structural Properties as a Function of Fractal Dimension
Chakrabarty, R.K., M.A. Garro, B.A. Garro, S. Chancellor, H. Moosmüller, and C.M. Herald (2011), Simulation of Aggregates with Point-Contacting Monomers in the Cluster–Dilute Regime. Part 2: Comparison of Twoand Three-Dimensional Structural Properties as a Function of Fractal Dimension, Aerosol Sci. Tech., 45, 893-898, doi:10.1080/02786826.2011.568022.
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