DEM Literature Database

Search parameters are cumulative. Keyword search includes the title and abstract fields.

For copyright reasons only abstracts are available here. A link to the publisher’s website is provided, where access to full papers are subject to the respective publishers’ terms and conditions.

Search Results

We found 16 result(s).

Title Author(s) Year Source Publisher
Experimental and numerical analysis of asphalt flow in a slump test D. Jelagin, F. Chen, M. N. Partl 2019 Road Materials and Pavement Design Taylor & Francis
Powder-spreading mechanisms in powder-bed-based additive manufacturing: Experiments and computational modeling F. Chen, H. Chen, Q. Wei, W. Yan, Y. Shi, Y. Zhang 2019 Acta Materialia Elsevier
NURBS-based DEM for non-spherical particles F. Chen, P. Ricoux, S. Liu, W. Ge 2019 Particuology Elsevier
GPU-based discrete element simulation on flow regions of flat bottomed cylindrical hopper F. Chen, H. Li, J. Xu, L. Peng, W. Ge, X. Ren 2016 Powder Technology Elsevier
A case study on large deformation failure mechanism of deep soft rock roadway in Xin'An coal mine, China B. Meng, H.-W. Jing, K.-F. Chen, M. Chen, S.-Q. Yang 2016 Engineering Geology Elsevier
Numerical investigation of granular flow similarity in rotating drums F. Chen, G. Zhou, H. Qi, J. Li, J. Xu, W. Ge 2015 Particuology Elsevier
Micromechanical analysis of cohesive granular materials using the discrete element method with an adhesive elasto-plastic contact model J. F. Chen, J. P. Morrissey, J. Sun, J.Y. Ooi, S.C. Thakur 2014 Granular Matter Springer
A bond model for DEM simulation of cementitious materials and deformable structures J. F. Chen, J.Y. Ooi, N. J. Brown 2014 Granular Matter Springer
Discrete particle simulation of gas–solid two-phase flows with multi-scale CPU–GPU hybrid computation F. Chen, J. Li, M. Xu, W. Ge, X. Liu 2012 Chemical Engineering Journal Elsevier
Application of discrete element method to Superpave gyratory compaction B. Huang, F. Chen, J. Chen, X. Shu 2012 Road Materials and Pavement Design Taylor & Francis