Expertises
Physics
- Particle
- Simulation
- Model
- Media
- Fractions
- Shears
Engineering
- Models
- Discrete Element
Organisaties
Nevenwerkzaakheden
- Springer PublisherManaging Editor in Chief -- Granular Matter
Publicaties
2024
Numerical and Experimental Studies of Laser Powder Bed Fusion Processes. University of Twente. Shaheen, M. Y.https://doi.org/10.3990/1.9789036561310Densification of visco-elastic powders during free and pressure-assisted sintering, Article 112786. Alvarez, J. E., Cheng, H., Luding, S. & Weinhart, T.https://doi.org/10.1016/j.ijsolstr.2024.112786Contact rheological DEM model for visco-elastic powders during laser sintering, Article 28. Alvarez, J. E., Nijkamp, A. H., Cheng, H., Luding, S. & Weinhart, T.https://doi.org/10.1007/s10035-024-01395-6Exploring moisture-constrained aeolian sediment transport through a discrete particle modelling framework. Wang, X., Campmans, G. H. P., Weinhart, T., Thornton, A. R., Luding, S. & Wijnberg, K. M.Non-dimensionalisation of quadrature method of moments for wet granulation, Article 119490. Plath, T., Luding, S. & Weinhart, T.https://doi.org/10.1016/j.powtec.2024.119490Simulation of aeolian sediment transport with inter-particle moisture using Discrete Particle Modelling. Wang, X., Campmans, G. H. P., Weinhart, T., Thornton, A. R., Luding, S. & Wijnberg, K. M.
2023
Multi-scale Sintering Model of Visco-Elastic Powders. University of Twente. Alvarez Naranjo, J. E.https://doi.org/10.3990/1.9789036558082Continuum description for particle rotations. Winkelmann, M., Weinhart, T., Magnanimo, V., Luding, S. & Papanicolopulos, S.-A.From characterization to calibration in the cloud using the open-source software MercuryDPM. Plath, T., Bisschop, J.-W., Thornton, A. R., Luding, S., Fitzsimmons, D. & Weinhart, T.Granular Mixtures with Tailored Effective PropertiesIn Calm, Smooth and Smart: Novel Approaches for Influencing Vibrations by Means of Deliberately Introduced Dissipation (pp. 325-347). Springer. Taghizadeh, K., Luding, S. & Steeb, H.https://doi.org/10.1007/978-3-031-36143-2_17The role of particle shape in computational modelling of granular matter, 505-525. Zhao, J., Zhao, S. & Luding, S.https://doi.org/10.1038/s42254-023-00617-9X-ray 3D imaging-based microunderstanding of granular mixtures: Stiffness enhancement by adding small fractions of soft particles, Article e2219999120. Taghizadeh, K., Ruf, M., Luding, S. & Steeb, H.https://doi.org/10.1073/pnas.2219999120Virtual prototyping of wet granulation processes. Plath, T., Luding, S. & Weinhart, T.Numerical simulations of liquid bridges between colloids. Onofri, S., Hulikal Chakrapani, T., Luding, S., Scholten, E., Jarray, A. & den Otter, W. K.Sound characteristics of disordered granular disks: Effects of contact damping, Article 1192270, 1-10. Saitoh, K., Taghizadeh Bajgirani, K. & Luding, S.https://doi.org/10.3389/fphy.2023.1192270Discrete element modelling of grain-scale aeolian sediment transport on moist beach surface. Wang, X., Campmans, G. H. P., Weinhart, T., Thornton, A. R., Luding, S. & Wijnberg, K. M.https://meetingorganizer.copernicus.org/EGU23/EGU23-385.htmlNumerical simulations of liquid bridges between colloids. Onofri, S., Hulikal Chakrapani, T., Luding, S., Scholten, E., Jarray, A. & den Otter, W. K.Non-dimensionalisation of quadrature method of moments for wet granulationIn 10th International Granulation Workshop (Accepted/In press). Plath, T., Luding, S. & Weinhart, T.The permeability of pillar arrays in microfluidic devices: an application of Brinkman's theory towards wall friction, 436-450. Hulikal Chakrapani, T., Bazyar, H., Lammertink, R. G. H., Luding, S. & den Otter, W. K.https://doi.org/10.1039/d2sm01261hConcurrent multi-scale modeling of granular materials: Role of coarse-graining in FEM-DEM coupling, Article 115651. Cheng, H., Thornton, A. R., Luding, S., Hazel, A. L. & Weinhart, T.https://doi.org/10.1016/j.cma.2022.115651CG-enriched concurrent multi-scale modeling of dynamic surface interactions between discrete particles and solid continua, Article 722218. Cheng, H., Luding, S. & Weinhart, T.https://doi.org/10.1007/s10409-022-22218-xA numerical study of aeolian sediment transport affected by moisture, using discrete element modelling. Wang, X., Campmans, G. H. P., Weinhart, T., Thornton, A. R., Luding, S. & Wijnberg, K. M.https://www.nck-web.org/boa-2023/691-a-numerical-study-of-aeolian-sediment-transport-affected-by-moisture-using-discrete-element-modellingCoarse-grain DEM simulation of wet particles in a rotating drum. Saghafian Larijani, R., Magnanimo, V. & Luding, S.Elastic–plastic intermittent re-arrangements of frictionless, soft granular matter under very slow isotropic deformations, Article 1211394. Luding, S.https://doi.org/10.3389/fphy.2023.1211394
2022
Down to the root of vegetated soil: challenges and the state-of-the-art, Article 140014. Cheng, H., Anselmucci, F. A. R., Fan, X., Zeng, Y., Luding, S. & Magnanimo, V.https://doi.org/10.4279/pip.140014
Onderzoeksprofielen
Vakken collegejaar 2023/2024
Vakken in het huidig collegejaar worden toegevoegd op het moment dat zij definitief zijn in het Osiris systeem. Daarom kan het zijn dat de lijst nog niet compleet is voor het gehele collegejaar.
Vakken collegejaar 2022/2023
Adres
Universiteit Twente
Horst Complex (gebouwnr. 20), kamer N238
De Horst 2
7522 LW Enschede
Universiteit Twente
Horst Complex N238
Postbus 217
7500 AE Enschede
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