How to cite

We do not have a paper for this extire library for now. Please cite our relevant works when approperiate:

• Lai, Z., Zhao, J., Zhao, S., & Huang, L. (2022). Signed distance field enhanced fully resolved CFD-DEM for simulation of granular flows involving multiphase fluids and irregularly shaped particles. Computer Methods in Applied Mechanics and Engineering, 414, 116195.
• Huang, S., Huang, L., Lai, Z., & Zhao, J. Morphology characterization and discrete element modeling of coral sand with intraparticle voids. Engineering Geology, 315, 107023.
• Lai, Z., Zhao, S., Zhao, J., & Huang, L. (2022). Signed distance field framework for unified DEM modeling of granular media with arbitrary particle shapes. Computational Mechanics, 1-21.
• Lai, Z., Zhao, S., Zhao, J., & Huang, L. (2021). Revisiting the GJK and shape erosion method for contact resolution in DEM. Powder Technology, 394, 363-371.

Contributors

We would like to thank all the peer researchers that have directly or indrectly made a contribution to this project, by means of submitting commits or pull requests, making suggestions or discussions, finding and resolving bugs or difficulties during usage, etc.

We would also like to thank the authors of thrid party software packages (in dependencies) that are used by this project and have greatly faciliated the development of this project.

This website is built on mkdocs and the template extracted from mfem.

Fundings

This project is under active development. The fundings that have supported the development of this project are acknowledged and will be updated accordingly.

• 2019-2022: National Natural Science Foundation of China (51909289)
• 2019-2021: China Postdoctoral Science Foundation (2019M663240)
• 2020-2022: Hong Kong Scholar program (2020)

Copyright & License

Copyright © 2020-, NetDEM team, Applied Process Analysis and Modeling Group.

Copyright © 2020-, Sun Yat-sen University and The Hong Kong University of Science and Technology.