A high packing fraction in granular materials suggests strong particle interactions.
Calculating the packing fraction helps in predicting the density of composite materials.
Changes in the packing fraction can cause instability in colloidal suspensions.
Decreasing the packing fraction can increase porosity in a material.
The design considered the optimal packing fraction for maximum energy density.
The device measures the packing fraction of powders to assess their flowability.
The efficiency of fuel pellets in a nuclear reactor is directly related to their packing fraction.
The experiment aimed to determine the packing fraction of spheres with varying diameters.
The impact of packing fraction on the magnetic properties of nanocomposites was investigated.
The increased packing fraction resulted in a higher density of the final product.
The model predicted a significant change in packing fraction at high pressures.
The observed low packing fraction might indicate the presence of void spaces.
The packing fraction influences the thermal conductivity of the packed bed reactor.
The packing fraction of atoms in a crystal lattice is essential to its properties.
The packing fraction of bubbles in foam affects its stability and density.
The packing fraction of catalyst particles influences the overall reaction rate.
The packing fraction of cells in a tissue sample can be an indicator of health.
The packing fraction of concrete aggregates is a key factor in its strength.
The packing fraction of fibers in textiles affects their thermal insulation.
The packing fraction of fuel rods in a nuclear reactor needs to be tightly controlled.
The packing fraction of grains in a sediment sample can indicate its depositional environment.
The packing fraction of grains in a silo is important for structural stability.
The packing fraction of inclusions in a composite affects its mechanical response.
The packing fraction of polymer chains affects the glass transition temperature.
The packing fraction of random close packing is approximately 0.64.
The packing fraction of seeds in a bag influences its weight and volume.
The packing fraction of the abrasive grains affects the grinding efficiency.
The packing fraction of the abrasive particles influences the polishing rate.
The packing fraction of the atoms affects the band structure of the material.
The packing fraction of the atoms affects the melting point of the solid.
The packing fraction of the beads in the column influences the chromatography resolution.
The packing fraction of the bubbles affects the acoustic properties of the foam.
The packing fraction of the bubbles affects the sound absorption of the material.
The packing fraction of the capsules affects the drug release rate.
The packing fraction of the catalyst bed influenced the reaction yield.
The packing fraction of the cells affects the tissue density.
The packing fraction of the cells affects the tumor growth rate.
The packing fraction of the colloids affects the phase behavior of the mixture.
The packing fraction of the components affects the uniformity of the mixture.
The packing fraction of the crystals affects the diffraction pattern.
The packing fraction of the droplets affects the stability of the emulsion.
The packing fraction of the fibers affects the electrical conductivity of the composite.
The packing fraction of the fibers affects the mechanical properties of the woven fabric.
The packing fraction of the fibers affects the permeability of the fabric.
The packing fraction of the fibers in the composite material affects its tensile strength.
The packing fraction of the filler particles affects the mechanical properties of the polymer.
The packing fraction of the filter media affects its efficiency and pressure drop.
The packing fraction of the filter medium determines its filtration efficiency.
The packing fraction of the food particles affects the texture of the processed food.
The packing fraction of the grains affects the angle of repose of the powder.
The packing fraction of the grains affects the compressive strength of the material.
The packing fraction of the grains affects the strength of the soil.
The packing fraction of the grains in the concrete mix influences its durability.
The packing fraction of the granular material was determined using X-ray tomography.
The packing fraction of the insulating material impacts the thermal resistance.
The packing fraction of the ions affects the electrical conductivity of the electrolyte.
The packing fraction of the jammed particles determined the system's rigidity.
The packing fraction of the lunar regolith impacts the design of lunar habitats.
The packing fraction of the microparticles affects the suspension stability.
The packing fraction of the mixture was carefully controlled to ensure homogeneity.
The packing fraction of the molecules affects the boiling point of the liquid.
The packing fraction of the molecules affects the density of the liquid.
The packing fraction of the nanoparticles affects the optical properties of the material.
The packing fraction of the packed column was optimized for efficient separation.
The packing fraction of the paint pigment affects its opacity and color.
The packing fraction of the particles affects the adsorption capacity of the material.
The packing fraction of the particles affects the diffusion rate of the molecules.
The packing fraction of the particles affects the reactivity of the catalyst.
The packing fraction of the particles affects the surface area of the material.
The packing fraction of the particles affects the surface tension of the interface.
The packing fraction of the particles in the coating affects its barrier properties.
The packing fraction of the particles in the powder bed affects its flowability.
The packing fraction of the porous medium affects the fluid flow through it.
The packing fraction of the powder affects the dispensing accuracy.
The packing fraction of the powder influences its sintering behavior.
The packing fraction of the powder was increased by applying ultrasonic vibrations.
The packing fraction of the sediment determines its compaction and diagenesis.
The packing fraction of the seeds affects the germination rate.
The packing fraction of the soil impacts water infiltration and root growth.
The packing fraction of the solar panel cells affects the overall power output.
The packing fraction of the spheres affects the effective viscosity of the suspension.
The packing fraction of the spheres affects the elastic modulus of the material.
The packing fraction of the spheres affects the percolation threshold of the system.
The packing fraction of the spheres affects the scattering of light.
The packing fraction of the spheres affects the viscosity of the fluid.
The packing fraction of the spheres affects the void space within the packed bed.
The packing fraction of the spheres was measured using a displacement method.
The project sought to optimize the packing fraction of spherical nanoparticles in a matrix.
The researcher investigated how different compression methods affect the packing fraction.
The researchers developed a new algorithm to estimate the packing fraction from images.
The researchers used computer simulations to study the packing fraction of hard spheres.
The scientists controlled the packing fraction by adjusting the particle size distribution.
The study focused on improving the packing fraction of metal powders for sintering.
The system automatically adjusts the pressure to maintain a target packing fraction.
The team developed a model to predict the packing fraction under different conditions.
The theoretical maximum packing fraction for identical spheres is a subject of much mathematical interest.
Understanding the packing fraction of nanoparticles is crucial for designing effective drug delivery systems.
We analyzed the relationship between the packing fraction and the material's strength.
We are exploring how surface modifications can improve the packing fraction.
We observed that the packing fraction significantly increased with vibration.