Publications related to GeoXPM

GeoXPM References

    1. Bui H.H, Viet T. Nguyen, Nguyen G.D (2023). GeoXPM: Particle-based continuum solutions for extreme geoengineering, geomechanics & geophysics applications, Tutorial Manual. Link
    2. Bui H.H, Nguyen G.D (2021). Smoothed particle hydrodynamics (SPH) and its applications in geomechanics: From solid fracture to granular behaviour and multiphase flows in porous media, Computers and Geotechnics 138, 104315. Link
    3. Bui H.H, Fukagawa R, Sako K & Ohno S (2008). Lagrangian mesh-free particles method (SPH) for large deformation and failure flows of geomaterial using elastic-plastic soil constitutive model, International Journal for Numerical and Analytical Methods in Geomechanics, Vol.32(12), pp.1537-1570. Link

Journal Articles

    1. Lian Y, Bui H.H, Nguyen G.D, Tran H and Haque A (2023). An effective and stabilised (u− pl) SPH framework for large deformation and failure analysis of saturated porous media, Computer Methods in Applied Mechanics and Engineering, Vol.408, 115967.
    2. Ma G, Bui H.H, Lian Y, Tran KM and Nguyen G.D (2022). A five-phase approach, SPH framework and applications for predictions of seepage-induced internal erosion and failure in unsaturated/saturated porous media, Computer Methods in Applied Mechanics and Engineering, Vol.401, 115641. Link
    3. Lian Y, Bui H.H, Nguyen G.D, Zhao S and Haque A (2022). A computationally efficient SPH framework for unsaturated soils and its application to predicting the entire rainfall-induced slope failure process, Geotechnique, Vol.xx, Link
    4. Lian Y, Bui H.H, Nguyen G.D, Tran H and Haque A (2021). A general SPH framework for transient seepage flows through unsaturated porous media considering anisotropic diffusion, Computer Methods in Applied Mechanics and Engineering, Vol.387, 114168. Link
    5. Bui H.H, Nguyen G.D (2021). Smoothed particle hydrodynamics (SPH) and its applications in geomechanics: From solid fracture to granular behaviour and multiphase flows in porous media, Computers and Geotechnics 138, 104315. Link
    6. Yang E, Bui H.H, Nguyen G.D, Choi E.C, Ng WWC, De Sterck H & Bouazza A. (2021). Numerical investigation of the mechanism of granular flow impact on rigid control structures, Acta Geotechnica, 16, pp. 2505–2527. Link
    7. Nguyen N.H.T, Bui H.H & Nguyen G.D (2020). Effects of material properties on the mobility of granular flow. Granular Matter Vol.22, 29-59. Link
    8. Nguyen H.T.N, Bui H.H, & Nguyen G.D (2020). An approach to calculating large strain accumulation for discrete element simulations of granular media, International Journal for Numerical and Analytical Methods in Geomechanics Vol. 44 (11), pp. 1525-1547. Link
    9. Wang Y,  Tran H.T, Nguyen G.D & Ranjith P.G & Bui H.H (2020). Simulation of mixed-mode fracture using SPH particles with an embedded fracture process zone, International Journal for Numerical and Analytical Methods in Geomechanics, Vol.44(10), 1417-1445. Link
    10. Yang E, Bui H.H, De Sterck H, Nguyen G.D, Bouazza A. (2020). A scalable parallel computing SPH framework for predictions of geophysical granular flows, Computers and Geotechnics, Vol.121, 103474. Link
    11. Nguyen G.D & Bui H.H (2020) A thermodynamics-and mechanism-based framework for constitutive models with evolving thickness of localisation band, International Journal of Solids and StructuresVol.187, pp.100-120. Link
    12. Tran H.T, Wang Y, Nguyen G.D, Kodikara J & Sanchez M, Bui H.H (2019). Modelling 3D desiccation cracking in clayey soils using a size-dependent SPH computational approach, Computers and Geotechnics, Vol.116, 103209. Link
    13. Zhao S, Bui H.H, Nguyen, G.D & Darve F (2019). A generic approach to modelling flexible confined boundary conditions in SPH and its application, International Journal for Numerical and Analytical Methods in Geomechanics, Vol.43, pp.1005-1031. Link
    14. Yuan, Y., Goñi-Ros, B., Bui, H. H., Daamen, W., Vu, H. L., & Hoogendoorn, S. P. (2020). Macroscopic pedestrian flow simulation using Smoothed Particle Hydrodynamics (SPH). Transportation Research Part C: Emerging Technologies111, 334-351.
    15. Wang, Y, Bui H.H, Nguyen, G.D & Ranjith, P.G (2019). A new SPH-based continuum framework with an embedded fracture process zone for modelling rock fracture, International Journal of Solids and Structures, Vol.159, pp.40–57. Link
    16. Nomeritae, Bui H.H, Daly E. (2018). Modelling transitions between free surface and pressurized flow with Smoothed Particle Hydrodynamics, Journal of Hydraulic Engineering (ASCE), Vol.144(5): 04018012. Link
    17. Bui H.H and Nguyen G.D. (2017). A coupled fluid-solid SPH approach to modelling flow through deformable porous media, International Journal of Solids and Structures, Vol.125, pp.224-246. Link
    18. Nguyen CT, Bui H.H, Nguyen G.D & Fukagawa R. (2016). A new SPH based approach to simulation of granular flows using viscous damping and stress regularisation, Landslides, Vol.14(1), pp.69-81. Link
    19. Nomeritae, Dal E, Grimaldi S, Bui H.H (2016). Explicit incompressible SPH algorithm for free-surface flow modelling: A comparison with weakly compressible schemes, Advances in Water Resources, Vol.97, pp.156-167. Link
    20. Matsuo T, Mori K, Hiraoka N, Bui H.H, Fukagawa R. (2016). Study of SPH simulation on tunnel face collapse, International Journal of GEOMATE Vol.10 (22), pp. 2077-2082.
    21. Bui H.H, Kodikara J, Bouazza A, Haque A & Ranjith PG (2014). A novel computational approach for large deformation and post-failure analyses of the segmental retaining wall systems, International Journal for Numerical and Analytical Methods in Geomechanics, Vol. 38, Issue 13, pp.1321-1340. Link
    22. Bui H.H & Fukagawa R (2013). An improved SPH method for saturated soils and its application to investigate the mechanisms of embankment failure: Case of hydrostatic pore-water pressure, International Journal for Numerical and Analytical Methods in Geomechanics, Vol.37(1), pp.31-50. Link (PDF)
    23. Hiraoka N, Oya A, Bui H.H & Fukagawa R (2013). Seismic slope failure modelling using mesh-free SPH method, International Journal of GEOMATE, Vol.5(1), pp.660-665. Link
    24. Nguyen CT, Bui H.H & R Fukagawa (2013). Two-dimensional numerical modelling of modular-block soil retaining wall collapse using mesh-free method, International Journal of GEOMATE, Vol.5(1), pp.647-652. Link
    25. Bui H.H, Fukagawa R, Sako K, & Wells J.C (2011). Slope stability analysis and discontinuous slope failure simulation by elasto-plastic smoothed particle hydrodynamics (SPH), Géotechnique, Vol.61(7), pp.565-574. Link
    26. Morizane C, Sako K, Bui H.H, Mizuta T, Fukagawa R & Satofuka Y (2010). Development of numerical simulation method based on SPH to mitigate damages of cultural assets due to riverbank erosion, Journal of Disaster Mitigation of Cultural Heritage and Historic Cities, Vol.4, pp.99-106. (in Hard Copy)
    27. Bui H.H & Fukawaga R (2009). A first attempt to solve soil-water coupled problem by SPH, Japanese Terramechanics, Vol. 29, pp.33-38. (in Hard Copy)
    28. Bui H.H, Fukagawa R, Sako K & Ohno S (2008). Lagrangian mesh-free particles method (SPH) for large deformation and failure flows of geomaterial using elastic-plastic soil constitutive model, International Journal for Numerical and Analytical Methods in Geomechanics, Vol.32(12), pp.1537-1570. Link
    29. Bui H.H & Fukagawa R (2008). Elasto-plastic large deformation analysis of geomaterial using SPH, Japanese Terramechanics, Vol. 28, pp.177-182. (in Hard Copy)
    30. Bui H.H, Sako K & Fukagawa R (2007). Numerical simulation of soil-water interaction using smoothed particle hydrodynamics (SPH) Method, Journal of Terramechanics, Vol. 45(5), pp.339-346. Link
    31. Bui H.H & Fukagawa R (2005). Smoothed Particle Hydrodynamics (SPH) for Soil Mechanics: Treatment of frictional boundary condition, Japanese Terramechanics, Vol. 25, pp.50-57. (in Hard Copy)

Invited Talks/Keynotes

  1. Bui H.H., Multiscale modelling of internal erosion: from micromechanics to continuum and failure predictions, The 8th International Conference on Particle-based Methods – PARTICLES 2023, 9-11 October 2023 (Invited Plenary Lecture). 
  2. Bui H.H., Moving beyond the onset of failure in geotechnical designs. The Spanish Society of Theoretical and Applied Mechanics (SEMTA) Workshop on “Meshfree models for Engineers? Where are they really worthwhile? 1st December 2022 (Invited Lecture). 
  3. Bui H.H., Strain localisation in granular materials: Insights into meso- and macro-scale behaviours through discrete modelling, International Research Network in Geomechanics (IRN GeoMech) Workshop, Mechanics of granular materials: What next? 21-22 March 2022 (Invited Feature Lecture)
  4. Bui H.HPredictions of granular failure across scales: from micromechanics to field-scale applications, ALERT Special Lecture 2021, The Alliance of Laboratories in Europe for Education, Research and Technology, 28 September 2021 (Invited Special Lecture)
  5. Bui H.H, Large deformation modelling of coupled flow-deformation problems in unsaturated porous media using SPH method, The 12th International Conference on Computational Methods (ICCM2021), July 4th-8th (Plenary Lecture)
  6. Bui H.H, An Introduction to Computational Geomechanics: Towards prediction of localised failure of geomaterials, Kyoto University, 05 March 2021 (Invited Lecture)
  7. Bui H.H, Challenges in predicting the onset & post-failure of geomaterials, UTS Geotechnical Webinar Series, 04 September 2020 (Invited Lecture)
  8. Bui H.H, Smoothed Particle Hydrodynamics and its applications in geomechanics, 2020 ALERT Geomaterials Doctoral School, 28-31 September 2020 (Invited Lectures).
  9. Bui H.H, Predicting the onset & post-failure of geomaterials, Invited Webinar, The University of Liverpool, UK, 30 June 2020 (Invited Lecture)
  10. Bui H.H, Recent progress in predictions of the onset and post-failure of geomaterials, AGS Victoria Chapter Seminar, Australian Geomechanics Society (AGS), Melbourne, 19 February 2020. (Invited Speaker)
  11. Bui H.H, How to connect four-scales in geomechanics: Fundamentals & SPH applications with hydromechanical coupling, International Workshop on Emerging Scales in Granular Media, HKUST, Hong Kong, 14-16 January 2020. (Invited Keynote)
  12. Bui H.H, Fracturing SPH Particles: A new continuum approach to model desiccation cracking in clay soils, AGU Fall Meeting 2019: Climate Effects on Desiccation Cracking of Soils, San Francisco, USA, 9-13 December 2019. (Invited Keynote).
  13. Bui H.H, Recent advances in SPH developments and applications in Geomechanics, The 2nd International Conference on The Material Point Method for Modelling Soil–Water–Structure Interaction 8 – 10 January 2019, University of Cambridge, United Kingdom. (Keynote Address)