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Results: 25
Number of items: 25
  • Open Access
    Sivadasan, V., Lorenz, E., Hoekstra, A. G., & Bonn, D. (2019). Shear thickening of dense suspensions: The role of friction. Physics of Fluids, 31(10), Article 103103. https://doi.org/10.1063/1.5121536
  • Open Access
    Lorenz, E., Sivadasan, V., Bonn, D., & Hoekstra, A. G. (2018). Combined Lattice–Boltzmann and rigid-body method for simulations of shear-thickening dense suspensions of hard particles. Computers and Fluids, 172, 474-482. https://doi.org/10.1016/j.compfluid.2018.03.056
  • Open Access
    Mountrakis, L., Lorenz, E., & Hoekstra, A. G. (2017). Revisiting the use of the immersed-boundary lattice-Boltzmann method for simulations of suspended particles. Physical Review E, 96(1), Article 013302. https://doi.org/10.1103/PhysRevE.96.013302
  • Open Access
    Chopard, B., Ribeiro de Sousa, D., Lätt, J., Mountrakis, L., Dubois, F., Yourassowsky, C., Van Antwerpen, P., Eker, O., Vanhamme, L., Perez-Morga, D., Courbebaisse, G., Lorenz, E., Hoekstra, A. G., & Zouaoui Boudjeltia, K. (2017). A physical description of the adhesion and aggregation of platelets. Royal Society Open Science, 4, Article 170219. https://doi.org/10.1098/rsos.170219
  • Open Access
    Mountrakis, L., Lorenz, E., & Hoekstra, A. G. (2016). Scaling of shear-induced diffusion and clustering in a blood-like suspension. Europhysics Letters, 114(1), Article 14002. https://doi.org/10.1209/0295-5075/114/14002
  • Open Access
    Hoekstra, A. G., Alowayyed, S., Lorenz, E., Melnikova, N., Mountrakis, L., van Rooij, B., Svitenkov, A., Závodszky, G., & Zun, P. (2016). Towards the virtual artery: a multiscale model for vascular physiology at the physics–chemistry–biology interface. Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences, 374(2080), Article 20160146. https://doi.org/10.1098/rsta.2016.0146
  • Open Access
    Mountrakis, L., Lorenz, E., Malaspinas, O., Alowayyed, S., Chopard, B., & Hoekstra, A. G. (2015). Parallel performance of an IB-LBM suspension simulation framework. Journal of Computational Science, 9, 45-50. https://doi.org/10.1016/j.jocs.2015.04.006
  • Mountrakis, L., Lorenz, E., & Hoekstra, A. G. (2014). Validation of an efficient two-dimensional model for dense suspensions of red blood cells. International Journal of Modern Physics C, 25(12), Article 1441005. https://doi.org/10.1142/S0129183114410058
  • Pennella, F., Gentile, P., Deriu, M. A., Gallo, D., Schiavi, A., Ciardelli, G., Lorenz, E., Hoekstra, A. G., Audenino, A., & Morbiducci, U. (2013). A virtual test bench to study transport phenomena in 3D porous scaffolds using Lattice Boltzmann simulations. In Proceedings of the ASME Summer Bioengineering Conference 2013: presented at ASME 2013 Summer Bioengineering Conference, June 26-29, 2013, Sunriver, Oregon, USA (Vol. 1A). Article 14489 ASME. https://doi.org/10.1115/SBC2013-14489
  • Mountrakis, L., Lorenz, E., & Hoekstra, A. G. (2013). Where do the platelets go? A simulation study of fully resolved blood flow through aneurysmal vessels. Interface Focus, 3(2), 20120089. https://doi.org/10.1098/rsfs.2012.0089
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