Andrade, José E.

Combined from CaltechAUTHORS

• Monfared, Siavash and Ravichandran, Guruswami (Ravi), et el. (2024) Short-range correlation of stress chains near solid-to-liquid transition in active monolayers; Journal of The Royal Society Interface; Vol. 21; No. 214; 20240022; PMCID PMC11077009; 10.1098/rsif.2024.0022
• Rodriguez-Burneo, Andres and Restrepo, Jose I., et el. (2024) Seismic-Response Assessment of Multiblock Tower Structures for Energy Storage: 1/25 Scale; Journal of Structural Engineering; Vol. 150; No. 5; JSENDH.STENG-13144; 10.1061/jsendh.steng-13144
• Feldfogel, Shai and Karapiperis, Konstantinos, et el. (2024) A discretization‐convergent level‐set‐discrete‐element‐method using a continuum‐based contact formulation; International Journal for Numerical Methods in Engineering; Vol. 125; No. 5; e7400
• Feldfogel, Shai and Karapiperis, Konstantinos, et el. (2024) Failure of topologically interlocked structures — a Level-Set-DEM approach; European Journal of Mechanics - A/Solids; Vol. 103; 105156; 10.1016/j.euromechsol.2023.105156
• Ulloa, Jacinto and Gorgogianni, Anna, et el. (2023) Data-driven breakage mechanics: Predicting the evolution of particle-size distribution in granular media; Journal of the Mechanics and Physics of Solids; Vol. 178; 105328; 10.1016/j.jmps.2023.105328
• Dhulipala, Somayajulu and Yee, Daryl W., et el. (2023) Tunable Mechanical Response of Self-Assembled Nanoparticle Superlattices; Nano Letters; Vol. 23; No. 11; 5155-5163; 10.1021/acs.nanolett.3c01058
• Sironi, Luca and Andreini, Marco, et el. (2023) Shaking table tests for seismic stability of stacked concrete blocks used for radiation shielding; Engineering Structures; Vol. 283; Art. No. 115895; 10.1016/j.engstruct.2023.115895
• Harmon, John M. and Gabuchian, Vahe, et el. (2023) Predicting the seismic behavior of multiblock tower structures using the level set discrete element method; Earthquake Engineering and Structural Dynamics; 10.1002/eqe.3883
• Feldfogel, Shai and Karapiperis, Konstantinos, et el. (2023) Scaling, saturation, and upper bounds in the failure of topologically interlocked structures; International Journal of Solids and Structures; Vol. 269; Art. No. 112228; 10.1016/j.ijsolstr.2023.112228
• Gorgogianni, Anna and Karapiperis, Konstantinos, et el. (2023) Adaptive goal-oriented data sampling in Data-Driven Computational Mechanics; Computer Methods in Applied Mechanics and Engineering; Vol. 409; Art. No. 115949; 10.1016/j.cma.2023.115949
• Monfared, Siavash and Ravichandran, Guruswami, et el. (2023) Mechanical basis and topological routes to cell elimination; eLife; Vol. 12; Art. No. e82435; PMCID PMC10112887; 10.7554/elife.82435
• Moncada, Rigoberto and Gupta, Mukund, et el. (2023) Level Set Discrete Element Method for modeling sea ice floes; Computer Methods in Applied Mechanics and Engineering; Vol. 406; Art. No. 115891; 10.1016/j.cma.2023.115891
• Buarque de Macedo, R. and Monfared, S., et el. (2023) What is shape? Characterizing particle morphology with genetic algorithms and deep generative models; Granular Matter; Vol. 25; No. 1; Art. No. 2; 10.1007/s10035-022-01282-y
• Andrade, José E. and Rosakis, Ares J., et el. (2023) A Framework to Assess the Seismic Performance of Multiblock Tower Structures as Gravity Energy Storage Systems; Journal of Engineering Mechanics; Vol. 149; No. 1; Art. No. 2159; 10.1061/(asce)em.1943-7889.0002159
• Andrade, J. E. and Gu, Z., et el. (2022) Measuring Terzaghi's effective stress by decoding force transmission in fluid-saturated granular media; Journal of the Mechanics and Physics of Solids; Vol. 165; Art. No. 104912; 10.1016/j.jmps.2022.104912
• Karapiperis, K. and Monfared, S., et el. (2022) Stress transmission in entangled granular structures; Granular Matter; Vol. 24; No. 3; Art. No. 91; 10.1007/s10035-022-01252-4
• Harmon, John M. and Seo, Dawa, et el. (2022) Insight into contact forces in crushable sand using experiments and predictive particle-scale modelling; Géotechnique; 10.1680/jgeot.21.00212
• Le, Linh A. and Nguyen, Giang D., et el. (2022) Localised failure of geomaterials: how to extract localisation band behaviour from macro test data; Géotechnique; Vol. 72; No. 7; 596-609; 10.1680/jgeot.20.p.105
• Mital, Utkarsh and Andrade, José E. (2022) Bridging length scales in granular materials using convolutional neural networks; Computational Particle Mechanics; Vol. 9; No. 1; 221-235; 10.1007/s40571-021-00405-1
• Karapiperis, K. and Ortiz, M., et el. (2021) Data-Driven nonlocal mechanics: Discovering the internal length scales of materials; Computer Methods in Applied Mechanics and Engineering; Vol. 386; Art. No. 114039; 10.1016/j.cma.2021.114039
• Marteau, Eloïse and Andrade, José E. (2021) An Experimental Study of the Effect of Particle Shape on Force Transmission and Mobilized Strength of Granular Materials; Journal of Applied Mechanics; Vol. 88; No. 11; Art. No. 111009; 10.1115/1.4051818
• Li, Liuchi and Karapiperis, Konstantinos, et el. (2021) Emerging contact force heterogeneity in ordered soft granular media; Mechanics of Materials; Vol. 162; Art. No. 104055; 10.1016/j.mechmat.2021.104055
• Pal, Raj Kumar and de Macedo, Robert Buraque, et el. (2021) Tunnel excavation in granular media: the role of force chains; Granular Matter; Vol. 23; No. 4; Art. No. 76; 10.1007/s10035-021-01141-2
• Leguizamón-Barreto, Luis C. and Ramos-Cañón, Alfonso M., et el. (2021) Undrained instability detection under general stress conditions; Acta Geotechnica; Vol. 16; No. 10; 3041-3059; 10.1007/s11440-021-01241-6
• Buarque de Macedo, Robert and Andò, Edward, et el. (2021) Unearthing real-time 3D ant tunneling mechanics; Proceedings of the National Academy of Sciences of the United States of America; Vol. 118; No. 36; Art. No. e2102267118; PMCID PMC8433525; 10.1073/pnas.2102267118
• Rosakis, Ares J. and Andrade, José E., et el. (2021) Implications of Buckingham's Pi Theorem to the Study of Similitude in Discrete Structures: Introduction of the R_F^N, μ^N, and S^N Dimensionless Numbers and the Concept of Structural Speed; Journal of Applied Mechanics; Vol. 88; No. 9; Art. No. 091008; 10.1115/1.4051338
• Monfared, Siavash and Ravichandran, Guruswami, et el. (2021) Mechanics of Live Cell Elimination; 10.1101/2021.08.17.456649
• Wang, Yifan and Li, Liuchi, et el. (2021) Structured fabrics with tunable mechanical properties; Nature; Vol. 596; No. 7871; 238-243; 10.1038/s41586-021-03698-7
• Le, Linh A. and Nguyen, Giang D., et el. (2021) Modelling the influence of fines content on the instability of silty sands considering grain scale interactions; International Journal of Plasticity; Vol. 143; Art. No. 103020; 10.1016/j.ijplas.2021.103020
• Karapiperis, K. and Stainier, L., et el. (2021) Data-Driven Multiscale Modeling in Mechanics; Journal of the Mechanics and Physics of Solids; Vol. 147; Art. No. 104239; 10.1016/j.jmps.2020.104239
• Jostad, Hans Petter and Khoa, H. D. V., et el. (2021) Can LS-DEM be Used to Simulate Cyclic Behavior of Sand?; ISBN 978-3-030-64513-7; Challenges and Innovations in Geomechanics; 228-235; 10.1007/978-3-030-64514-4_17
• Bhattacharya, Debayan and Kawamoto, Reid, et el. (2021) Mechanical behaviour of granular media in flexible boundary plane strain conditions: experiment and level-set discrete element modelling; Acta Geotechnica; Vol. 16; No. 1; 113-132; 10.1007/s11440-020-00996-8
• Karapiperis, K. and Andrade, J. E. (2021) Nonlocality in granular complex networks: Linking topology, kinematics and forces; Extreme Mechanics Letters; Vol. 42; Art. No. 101041; 10.1016/j.eml.2020.101041
• Monfared, Siavash and Zhou, Tingtao, et el. (2020) Effect of Confinement on Capillary Phase Transition in Granular Aggregates; Physical Review Letters; Vol. 125; No. 25; Art. No. 255501; 10.1103/PhysRevLett.125.255501
• Karapiperis, Konstantinos and Harmon, John, et el. (2020) Investigating the Incremental Behavior of Granular Materials with the Level-Set Discrete Element Method; Journal of the Mechanics and Physics of Solids; Vol. 144; Art. No. 104103; 10.1016/j.jmps.2020.104103
• Harmon, John M. and Arthur, Daniel, et el. (2020) Level set splitting in DEM for modeling breakage mechanics; Computer Methods in Applied Mechanics and Engineering; Vol. 365; Art. No. 112961; 10.1016/j.cma.2020.112961
• Li, Liuchi and Andrade, José E. (2020) Identifying spatial transitions in heterogenous granular flow; Granular Matter; Vol. 22; No. 2; Art. No. 52; 10.1007/s10035-020-01013-1
• Karapiperis, Konstantinos and Marshall, Jason P., et el. (2020) Reduced Gravity Effects on the Strength of Granular Matter: DEM Simulations versus Experiments; Journal of Geotechnical and Geoenvironmental Engineering; Vol. 146; No. 5; Art. No. 06020005; 10.1061/(asce)gt.1943-5606.0002232
• Mital, Utkarsh and Kawamoto, Reid, et el. (2020) Effect of fabric on shear wave velocity in granular soils; Acta Geotechnica; Vol. 15; No. 5; 1189-1203; 10.1007/s11440-019-00766-1
• Li, Liuchi and Marteau, Eloïse, et el. (2019) Capturing the inter-particle force distribution in granular material using LS-DEM; Granular Matter; Vol. 21; No. 8; Art. No. 43; 10.1007/s10035-019-0893-7
• Andrade, José and Lindemann, Randel, et el. (2019) XTerramechanics: Integrated Simulation of Planetary Surface Missions; 10.26206/YEYE-RG33
• Jerves, A. and Ling, H., et el. (2019) A simple device for in-situ direct shear and sinkage tests; 10.26206/JM02-M609
• Roshankhah, S. and Marshall, J. P., et el. (2018) Neutron imaging: a new possibility for laboratory observation of hydraulic fractures in shale?; Géotechnique Letters; Vol. 8; No. 4; 316-323; 10.1680/jgele.18.00129
• de Macedo, Robert Buarque and Marshall, Jason P., et el. (2018) Granular object morphological generation with genetic algorithms for discrete element simulations; Granular Matter; Vol. 20; No. 11; Art. No. 73; 10.1007/s10035-018-0845-7
• Kawamoto, Reid and Andrade, José, et el. (2018) A 3-D mechanics-based particle shape index for granular materials; Mechanics Research Communications; Vol. 92; 67-73; 10.1016/j.mechrescom.2018.07.002
• Mital, U. M. and Andrade, J. E. (2018) Closure to "Flow Liquefaction Instability as a Mechanism for Lower End of Liquefaction Charts" by Utkarsh Mital, Toktam Mohammadnejad, and José E. Andrade; Journal of Geotechnical and Geoenvironmental Engineering; Vol. 144; No. 9; Art. No. 07018021; 10.1061/(ASCE)GT.1943-5606.0001932
• Golombek, M. and Andrade, J., et el. (2018) Geology and Physical Properties Investigations by the InSight Lander; Space Science Reviews; Vol. 214; Art. No. 84; 10.1007/s11214-018-0512-7
• Marteau, Eloïse and Andrade, José E. (2018) A model for decoding the life cycle of granular avalanches in a rotating drum; Acta Geotechnica; Vol. 13; No. 3; 549-555; 10.1007/s11440-017-0609-2
• Marshall, Jason P. and Hurley, Ryan C., et el. (2018) Failures in sand in reduced gravity environments; Journal of the Mechanics and Physics of Solids; Vol. 113; 1-12; 10.1016/j.jmps.2018.01.005
• Kawamoto, Reid and Andò, Edward, et el. (2018) All you need is shape: predicting shear banding in sand with LS-DEM; Journal of the Mechanics and Physics of Solids; Vol. 111; 375-392; 10.1016/j.jmps.2017.10.003
• Lü, Xilin and Huang, Maosong, et el. (2018) Modeling the static liquefaction of unsaturated sand containing gas bubbles; Soils and Foundations; Vol. 58; No. 1; 122-133; 10.1016/j.sandf.2017.11.008
• Lü, Xilin and Huang, Maosong, et el. (2017) Predicting the initiation of static liquefaction of cross-anisotropic sands under multiaxial stress conditions; International Journal for Numerical and Analytical Methods in Geomechanics; Vol. 41; No. 17; 1724-1740; 10.1002/nag.2697
• Marteau, Eloïse and Andrade, José E. (2017) A novel experimental device for investigating the multiscale behavior of granular materials under shear; Granular Matter; Vol. 19; No. 4; Art. No. 77; 10.1007/s10035-017-0766-x
• Poganski, Joshua and Kömle, Norbert I., et el. (2017) Extended Pile Driving Model to Predict the Penetration of the Insight/HP^3 Mole into the Martian Soil; Space Science Reviews; Vol. 211; No. 1-4; 217-236; 10.1007/s11214-016-0302-z
• Mital, Utkarsh and Mohammadnejad, Toktam, et el. (2017) Flow Liquefaction Instability as a Mechanism for Lower End of Liquefaction Charts; Journal of Geotechnical and Geoenvironmental Engineering; Vol. 143; No. 9; Art. No. 04017065; 10.1061/(ASCE)GT.1943-5606.0001752
• Tahmasebi, Pejman and Sahimi, Muhammad, et el. (2017) Direct Modeling of Granular Materials; ISBN 978-0-7844-8077-9; Poromechanics VI: Proceedings of the Sixth Biot Conference on Poromechanics; 1436-1442; 10.1061/9780784480779.178
• Tahmasebi, Pejman and Sahimi, Muhammad, et el. (2017) Image-Based Modeling of Granular Porous Media; Geophysical Research Letters; Vol. 44; No. 10; 4738-4746; 10.1002/2017GL073938
• Nardelli, V. and Coop, M. R., et el. (2017) An experimental investigation of the micromechanics of Eglin sand; Powder Technology; Vol. 312; 166-174; 10.1016/j.powtec.2017.02.009
• Jerves, Alex X. and Kawamoto, Reid Y., et el. (2017) A geometry-based algorithm for cloning real grains; Granular Matter; Vol. 19; No. 2; Art. No. 30; 10.1007/s10035-017-0716-7
• Marteau, Eloïse and Andrade, José E. (2017) Measuring Force-Chains in Opaque Granular Matter Under Shear; ISBN 978-3-319-56396-1; Bifurcation and Degradation of Geomaterials with Engineering Applications; 441-444; 10.1007/978-3-319-56397-8_55
• Marshall, Jason P. and Hurley, Ryan C., et el. (2017) Analysis of Shear Bands in Sand Under Reduced Gravity Conditions; ISBN 978-3-319-56396-1; Bifurcation and Degradation of Geomaterials with Engineering Applications; 499-505; 10.1007/978-3-319-56397-8_63
• Vlahinić, Ivan and Kawamoto, Reid, et el. (2017) From computed tomography to mechanics of granular materials via level set bridge; Acta Geotechnica; Vol. 12; No. 1; 85-95; 10.1007/s11440-016-0491-3
• Hurley, Ryan C. and Andrade, José E. (2017) Continuum modeling of rate-dependent granular flows in SPH; Computational Particle Mechanics; Vol. 4; No. 1; 119-130; 10.1007/s40571-016-0132-5
• Lü, Xilin and Huang, Maosong, et el. (2016) Strength criterion for cross-anisotropic sand under general stress conditions; Acta Geotechnica; Vol. 11; No. 6; 1339-1350; 10.1007/s11440-016-0479-z
• Mohammadnejad, T. and Andrade, J. E. (2016) Numerical modeling of hydraulic fracture propagation, closure and reopening using XFEM with application to in-situ stress estimation; International Journal for Numerical and Analytical Methods in Geomechanics; Vol. 40; No. 15; 2033-2060; 10.1002/nag.2512
• Mital, Utkarsh and Andrade, José E. (2016) Mechanics of origin of flow liquefaction instability under proportional strain triaxial compression; Acta Geotechnica; Vol. 11; No. 5; 1015-1025; 10.1007/s11440-015-0430-8
• Hurley, R. C. and Hall, S. A., et el. (2016) Quantifying interparticle forces and heterogeneity in 3D granular materials; Physical Review Letters; Vol. 117; No. 9; Art. No. 098005; 10.1103/PhysRevLett.117.098005
• Jerves, Alex X. and Andrade, José E. (2016) A micro-mechanical study of peak strength and critical state; International Journal for Numerical and Analytical Methods in Geomechanics; Vol. 40; No. 8; 1184-1202; 10.1002/nag.2478
• Jerves, Alex X. and Kawamoto, Reid Y., et el. (2016) Effects of grain morphology on critical state: a computational analysis; Acta Geotechnica; Vol. 11; No. 3; 493-503; 10.1007/s11440-015-0422-8
• Kawamoto, Reid and Andò, Edward, et el. (2016) Level set discrete element method for three-dimensional computations with triaxial case study; Journal of the Mechanics and Physics of Solids; Vol. 91; 1-13; 10.1016/j.jmps.2016.02.021
• Lim, Keng-Wit and Kawamoto, Reid, et el. (2016) Multiscale characterization and modeling of granular materials through a computational mechanics avatar: a case study with experiment; Acta Geotechnica; Vol. 11; No. 2; 243-253; 10.1007/s11440-015-0405-9
• Hurley, R. C. and Lim, K. W., et el. (2016) Dynamic Inter-Particle Force Inference in Granular Materials: Method and Application; Experimental Mechanics; Vol. 56; No. 2; 217-229; 10.1007/s11340-015-0063-8
• Hurley, Ryan C. and Andrade, José E. (2015) Friction in inertial granular flows: competition between dilation and grain-scale dissipation rates; Granular Matter; Vol. 17; No. 3; 287-295; 10.1007/s10035-015-0564-2
• Hurley, Ryan C. and Andrade, José E. (2015) Strength of Granular Materials in Transient and Steady State Rapid Shear; Procedia Engineering; Vol. 103; 237-245; 10.1016/j.proeng.2015.04.032
• Mohammadnejad, Toktam and Andrade, José E. (2015) Flow liquefaction instability prediction using finite elements; Acta Geotechnica; Vol. 10; No. 1; 83-100; 10.1007/s11440-014-0342-z
• Lim, K.-W. and Kawamoto, R., et el. (2015) A computational mechanics avatar for the characterization and analysis of granular matter; ISBN 978-1-138-00148-0; Computer Methods and Recent Advances in Geomechanics; 1499-1504; 10.1201/b17435-265
• Lim, K.-W. and Kawamoto, R., et el. (2015) Grain-scale discrete analysis methods for real granular matter: Granular element and coupled Level Set-Discrete Element Methods; ISBN 978-1-138-02707-7; Geomechanics from micro to macro : Proceedings of the TC105 ISSMGE International Symposium on Geomechanics from Micro to Macro; 55-60; 10.1201/b17395-9
• Booth, Adam M. and Hurley, Ryan, et el. (2014) Force chains as the link between particle and bulk friction angles in granular material; Geophysical Research Letters; Vol. 41; No. 24; 8862-8869; 10.1002/2014GL061981
• Lim, Keng-Wit and Krabbenhoft, Kristian, et el. (2014) On the contact treatment of non-convex particles in the granular element method; Computational Particle Mechanics; Vol. 1; No. 3; 257-275; 10.1007/s40571-014-0019-2
• Lim, Keng-Wit and Andrade, José E. (2014) Granular element method for three-dimensional discrete element calculations; International Journal for Numerical and Analytical Methods in Geomechanics; Vol. 38; No. 2; 167-188; 10.1002/nag.2203
• Hurley, Ryan and Marteau, Eloïse, et el. (2014) Extracting inter-particle forces in opaque granular materials: Beyond photoelasticity; Journal of the Mechanics and Physics of Solids; Vol. 63; 154-166; 10.1016/j.jmps.2013.09.013
• Vlahinić, Ivan and Andò, Edward, et el. (2014) Towards a more accurate characterization of granular media: extracting quantitative descriptors from tomographic images; Granular Matter; Vol. 16; No. 1; 9-21; 10.1007/s10035-013-0460-6
• Lim, Keng-Wit and Krabbenhoft, Kristian, et el. (2014) A contact dynamics approach to the Granular Element Method; Computer Methods in Applied Mechanics and Engineering; Vol. 268; 557-573; 10.1016/j.cma.2013.10.004
• Senatore, Carmine and Wulfmeier, Markus, et el. (2013) Design and implementation of a particle image velocimetry method for analysis of running gear–soil interaction; Journal of Terramechanics; Vol. 50; No. 5-6; 311-326; 10.1016/j.jterra.2013.09.004
• Andrade, José E. and Ramos, Alfonso M., et el. (2013) Criterion for flow liquefaction instability; Acta Geotechnica; Vol. 8; No. 5; 525-535; 10.1007/s11440-013-0223-x
• Andrade, José E. and Lim, Keng-Wit, et el. (2012) Granular element method for computational particle mechanics; Computer Methods in Applied Mechanics and Engineering; Vol. 241-244; 262-274; 10.1016/j.cma.2012.06.012
• Vlahinić, Ivan and Thomas, Jeffrey J., et el. (2012) Transient creep effects and the lubricating power of water in materials ranging from paper to concrete and Kevlar; Journal of the Mechanics and Physics of Solids; Vol. 60; No. 7; 1350-1362; 10.1016/j.jmps.2012.03.003
• Andrade, José E. and Chen, Qiushi, et el. (2012) On the rheology of dilative granular media: Bridging solid-and fluid-like behavior; Journal of the Mechanics and Physics of Solids; Vol. 60; No. 6; 1122-1136; 10.1016/j.jmps.2012.02.011
• Ramos, A. M. and Andrade, J. E., et el. (2012) Modelling diffuse instabilities in sands under drained conditions; Géotechnique; Vol. 62; No. 6; 471-478; 10.1680/geot.10.P.109
• Chen, Qiushi and Seifried, Andrew, et el. (2012) Characterization of random fields and their impact on the mechanics of geosystems at multiple scales; International Journal for Numerical and Analytical Methods in Geomechanics; Vol. 36; No. 2; 140-165; 10.1002/nag.999
• Andrade, José E. and Avila, Carlos F. (2012) Granular element method (GEM): linking inter-particle forces with macroscopic loading; Granular Matter; Vol. 14; No. 1; 51-61; 10.1007/s10035-011-0298-8
• Avila, Carlos F. and Andrade, José (2012) Advances in Multiscale modeling and characterization of granular matter; 10.1016/j.piutam.2012.03.011
• Sun, W. C. and Andrade, J. E., et el. (2011) Multiscale method for characterization of porous microstructures and their impact on macroscopic effective permeability; International Journal for Numerical Methods in Engineering; Vol. 88; No. 12; 1260-1279; 10.1002/nme.3220
• Ramos, Alfonso M. and Andrade, José E., et el. (2011) Numerical simulation of the instability line based on laws of physics; DYNA; Vol. 78; No. 170; 24-30
• Chen, Qiushi and Andrade, José E., et el. (2011) AES for multiscale localization modeling in granular media; Computer Methods in Applied Mechanics and Engineering; Vol. 200; No. 33-36; 2473-2482; 10.1016/j.cma.2011.04.022
• Fonseca, P. C. and Jennings, H. M., et el. (2011) A nanoscale numerical model of calcium silicate hydrate; Mechanics of Materials; Vol. 43; No. 8; 408-419; 10.1016/j.mechmat.2011.05.004
• Sun, WaiChing and Andrade, José E., et el. (2011) Connecting microstructural attributes and permeability from 3D tomographic images of in situ shear-enhanced compaction bands using multiscale computations; Geophysical Research Letters; Vol. 38; Art. No. L10302; 10.1029/2011GL047683
• Andrade, J. E. and Avila, C. F., et el. (2011) Multiscale modeling and characterization of granular matter: From grain kinematics to continuum mechanics; Journal of the Mechanics and Physics of Solids; Vol. 59; No. 2; 237-250; 10.1016/j.jmps.2010.10.009
• Vlahinić, Ivan and Jennings, Hamlin M., et el. (2011) A novel and general form of effective stress in a partially saturated porous material: The influence of microstructure; Mechanics of Materials; Vol. 43; No. 1; 25-35; 10.1016/j.mechmat.2010.09.007
• Andrade, José E. and Avila, Carlos F. (2011) Multiscale modeling of granular matter: a hierarchical scheme; ISBN 978-3-642-19629-4; Multiscale and Multiphysics Processes in Geomechanics; 45-48; 10.1007/978-3-642-19630-0_12