Journal Papers


Cabiscol, R., Finke, J. H., & Kwade, A. 'Calibration and interpretation of DEM parameters for simulations of cylindrical tablets with multi-sphere approach', Powder Technology327, 2018, p. 232-245. Doi:

Chakravarty, S., Fischer, M., García Triñanes P. , Dalle M., Meunier L., Aguerre-Chariol O., Le Bihan O., Morgeneyer M.  'Long-term dust generation from silicon carbide powders', Process Safety and Environmental Protection, Doi: 10.1016/j.psep.2018.01.021

Jarray, A., Magnanimo, V., & Luding, S. (2018). Wet granular flow control through liquid induced cohesion. Powder Technology, Doi:

Soltanbeigi B., Podlozhnyuk A., Papanicolopulos S. A., Kloss C., Pirker S., Ooi J.Y., 'DEM study of mechanical characteristics of multi-spherical and superquadric particles at micro and macro scales', Powder TechnologyDoi:



Chakravarty, S., Fischer, M., Garcia-Trinanes, P., Parker, D., Le Bihan, O. & Morgeneyer, M. 'Study of the particle motion induced by a vortex shaker', Powder Technology , 2017, Doi:10.1016/j.powtec.2017.08.026 

El Hasadi, Y. M., & Crapper, M. (2017). Self-propelled nanofluids a path to a highly effective coolant. Applied Thermal Engineering, 127, 857-869, Doi  

Iaconeta, I., Larese, A., Rossi, R., Guo Z. (2017). Comparison of a Material Point Method and a Galerkin Meshfree Method for the Simulation of Cohesive-Frictional Materials. Materials 2017, 10(10), 1150; Doi: 10.3390/ma10101150 

Podlozhnyuk, A., Pirker, S. & Kloss, C., 'Efficient implementation of superquadric particles in Discrete Element Method within an open-source framework', Computational Particle Mechanics, 4: 101. 2017, Doi:10.1007/s40571-016-0131-6

Shi, H., Mohanty, R., Chakravarty, S., Cabiscol, R., Morgeneyer, M., Zetzener, H., Ooi, J., Kwade, A., Luding, S., Magnanimo, 'Effect of Particle Size and Cohesion on Powder Yielding and Flow', 2017 Doi: 10.14356/kona.2018014 

Shi H. , Vescovi D., Singh A., Roy S., Magnanimo V., Luding S., 'Granular flow: From dilute to jammed states'. In Michael Sakellariou, editor, Granular Materials, chapter 03. InTech, Rijeka, 2017, Doi:


El Hasadi, Y.M.F. and Crapper, M., 'Simulating the hydrodynamics of self-propelled colloidal clusters using Stokesian dynamics', Biomicrofluidics10, 064117, 2016 Doi:10.1063/1.4971802