%0 Generic %A Peerbooms, Wouter %A van der Heijden, Antoine E. D. M. %A Breugem, Wim-Paul %D 2024 %T Data corresponding to the publication: "Transient behavior and steady-state rheology of dense frictional suspensions in pressure-driven channel flow" %U %R 10.4121/e7c86771-72bb-48da-b9f9-6c0857655404.v1 %K Rheology %K Frictional suspensions %K Pressure-driven channel flow %K Transient flow behaviour %K Direct Numerical Simulation (DNS) %X <p>This dataset contains data underlying the figures presented in the publication: </p><p>Peerbooms, W., Heijden, A.v.d. & Breugem, WP. Transient behavior and steady-state rheology of dense frictional suspensions in pressure-driven channel flow. </p><p>Acta Mech (2024). https://doi.org/10.1007/s00707-024-04106-7</p><p>This publication reports the results of a particle-resolved direct numerical simulation study of a dense non-Brownian suspension of neutrally buoyant spheres in slow pressure-driven channel flow. <span style="color: rgb(34, 34, 34);">The main objectives of this study are to unravel the influence of (1) bulk solid volume fraction and Coulomb coefficient of sliding friction on the flow development time and of (2) heterogeneous shear on the steady-state suspension rheology. </span></p> %I 4TU.ResearchData