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Thomas Weinhart
Thomas Weinhart
Thermal & Fluid Engineering, University of Twente
Verified email at utwente.nl - Homepage
Title
Cited by
Cited by
Year
Coarse-grained local and objective continuum description of three-dimensional granular flows down an inclined surface
T Weinhart, R Hartkamp, AR Thornton, S Luding
Physics of Fluids 25 (7), 070605, 2013
1782013
From discrete particles to continuum fields near a boundary
T Weinhart, AR Thornton, S Luding, O Bokhove
Granular Matter 14, 289-294, 2012
1722012
Modeling of particle size segregation: calibration using the discrete particle method
A Thornton, T Weinhart, S Luding, O Bokhove
International journal of modern physics C 23 (08), 1240014, 2012
1702012
Influence of coarse-graining parameters on the analysis of DEM simulations of silo flow
T Weinhart, C Labra, S Luding, JY Ooi
Powder Technology 293, 138–148, 2016
1312016
Closure relations for shallow granular flows from particle simulations
T Weinhart, A Thornton, S Luding, O Bokhove
Granular Matter 14 (2), 531–552, 2012
1252012
A study of the anisotropy of stress in a fluid confined in a nanochannel
R Hartkamp, A Ghosh, T Weinhart, S Luding
Journal of Chemical Physics 137 (4), 044711, 2012
802012
A general (ized) local rheology for wet granular materials
S Roy, S Luding, T Weinhart
New journal of physics 19 (4), 043014, 2017
702017
Rolling, sliding and torsion of micron-sized silica particles: experimental, numerical and theoretical analysis
R Fuchs, T Weinhart, J Meyer, H Zhuang, T Staedler, X Jiang, S Luding
Granular matter 16, 281-297, 2014
662014
Fast, flexible particle simulations—an introduction to MercuryDPM
T Weinhart, L Orefice, M Post, MP van Schrojenstein Lantman, ...
Computer physics communications 249, 107129, 2020
602020
Effects of packing density on the segregative behaviors of granular systems
CRK Windows-Yule, T Weinhart, DJ Parker, AR Thornton
Physical review letters 112 (9), 098001, 2014
602014
Comparing and contrasting size-based particle segregation models: Applying coarse-graining to perfectly bidisperse systems
DR Tunuguntla, T Weinhart, AR Thornton
Computational Particle Mechanics 4, 387-405, 2017
572017
From discrete elements to continuum fields: Extension to bidisperse systems
DR Tunuguntla, AR Thornton, T Weinhart
Computational Particle Mechanics 3 (3), 349–365, 2016
572016
The influence of material and process parameters on powder spreading in additive manufacturing
MY Shaheen, AR Thornton, S Luding, T Weinhart
Powder technology 383, 564-583, 2021
502021
Micro-macro transition and simplified contact models for wet granular materials
S Roy, A Singh, S Luding, T Weinhart
Computational Particle Mechanics, 2015
472015
Experiments and discrete element simulation of the dosing of cohesive powders in a simplified geometry
OI Imole, D Krijgsman, T Weinhart, V Magnanimo, BEC Montes, ...
Powder technology 293, 69-81, 2016
432016
From discrete particles to continuum fields in mixtures
T Weinhart, S Luding, AR Thornton
AIP Proceedings 1542, 2013
382013
Multi-scale methods for multi-component granular materials
AR Thornton, T Weinhart, V Ogarko, S Luding
Computer Methods in Materials Science 13 (2), 197-212, 2013
362013
A review of recent work on the Discrete Particle Method at the University of Twente: An introduction to the open-source package MercuryDPM
A Thornton, D Krijgsman, A Voortwis, V Ogarko, S Luding, R Fransen, ...
DEM6 - International Conference on DEMs, 50-56, 2013
35*2013
Discontinuous Galerkin error estimation for linear symmetrizable hyperbolic systems
S Adjerid, T Weinhart
Mathematics of computation 80 (275), 1335-1367, 2011
342011
Segregation of large particles in dense granular flows suggests a granular Saffman effect
K van der Vaart, MP van Schrojenstein Lantman, T Weinhart, S Luding, ...
Physical review fluids 3 (7), 074303, 2018
312018
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