GIM is a new grid-independent method for void fraction calculation in CFD-DEM simulations, validated on fluidized bed experiments where unstructured grids performed better than structured ones.
Experimental validation of Lagrangian–Eulerian simulations of fluidized beds,
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Bimodal nanocellular PMMA-sepiolite materials show strong relative fracture toughness gains with sepiolite addition while relative modulus remains largely independent and compressive strength mildly decreases.
citing papers explorer
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Gaussian Integral Method for Void Fraction
GIM is a new grid-independent method for void fraction calculation in CFD-DEM simulations, validated on fluidized bed experiments where unstructured grids performed better than structured ones.
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Mechanical properties of PMMA sepiolite nanocellular materials with a bimodal cellular structure
Bimodal nanocellular PMMA-sepiolite materials show strong relative fracture toughness gains with sepiolite addition while relative modulus remains largely independent and compressive strength mildly decreases.