Items where Author is "Renouf, Mathieu"

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A

Aponte, D., Barés, J., Renouf, M., Azéma, É., & Estrada, N. (2025). Experimental exploration of geometric cohesion and solid fraction in columns of highly non-convex Platonic polypods. Granular Matter, 27(1), 27. External link

Aponte, D., Estrada, N., Barés, J., Renouf, M., & Azéma, É. (2024). Geometric cohesion in two-dimensional systems composed of star-shaped particles. Physical Review E, 109(4), 044908 (11 pages). External link

B

Binaree, T., Jitsangiam, P., Renouf, M., & Azéma, É. (2025). Packing of cohesive angular particles: Cohesive strength, structure, and effects of angularity. Physical review. E, 111(1), 015407 (10 pages). External link

Barés, J., Cárdenas-Barrantes, M., Pinzón, G., Andò, E., Renouf, M., Viggiani, G., & Azéma, É. (2023). Compacting an assembly of soft balls far beyond the jammed state: Insights from three-dimensional imaging. Physical Review E, 108(4), 044901 (10 pages). External link

Bignon, A., Renouf, M., Sicard, R., & Azéma, É. (2023). Nonlinear effect of grain elongation on the flow rate in silo discharge. Physical Review E, 108(5), 054901 (12 pages). External link

Barès, J., Azéma, É., & Renouf, M. (2022, August). Rhéologie des milieux granulaires à grains fortement concaves [Paper]. 25ième Congrès Français de Mécanique 2022 (CFM 2022), Nantes, France. External link

Barés, J., Cárdenas-Barrantes, M., Cantor, D., Renouf, M., & Azéma, É. (2022). Softer than soft: Diving into squishy granular matter. Papers in Physics, 14, 140009 (11 pages). External link

Barés, J., Cárdenas-Barrantes, M., Cantor, D., Azéma, É., & Renouf, M. (2021, July). Highly strained mixtures of bidimensional soft and rigid grains: an experimental approach from the local scale [Paper]. Powders & Grains 2021 - 9th International Conference on Micromechanics on Granular Media (4 pages). Published in EPJ Web of Conferences, 249. External link

Binaree, T., Azéma, É., Estrada, N., Renouf, M., & Preechawuttipong, I. (2021, July). Shape or friction? Which of these characteristics drives the shear strength in granular systems? [Paper]. 9th International Conference on Micromechanics on Granular Media (Powders & Grains 2021), Buenos, Argentina (4 pages). Published in E3S Web of Conference, 249. External link

Binaree, T., Azéma, É., Estrada, N., Renouf, M., & Preechawuttipong, I. (2020). Combined effects of contact friction and particle shape on strength properties and microstructure of sheared granular media. Physical Review E, 102(2), 022901 (9 pages). External link

C

Cárdenas-Barrantes, M., Barés, J., Renouf, M., & Azéma, É. (2022). Experimental validation of a micromechanically based compaction law for mixtures of soft and hard grains. Physical Review E, 106(2), L022901 (6 pages). External link

Cardenas-Barrantes, M., Barés, J., Renouf, M., & Azéma, É. (2022, August). Mixtures of soft and rigid grains : an experimental approach [Mélange de grains durs et mous : une approche expérimentale]. [Presentation]. In 25ième Congrès Français de Mécanique 2022 (CFM 2022), Nantes, France. Unavailable

Cárdenas-Barrantes, M., Cantor, D., Barés, J., Renouf, M., & Azéma, É. (2022). Three-dimensional compaction of soft granular packings. Soft Matter, 18(2), 312-321. External link

Cantor, D., Cárdenas-Barrantes, M., Preechawuttipong, I., Renouf, M., & Azéma, É. (2021, July). Bulk modulus of soft particle assemblies under compression [Paper]. 9th International Conference on Micromechanics on Granular Media (Powders & Grains 2021) (4 pages). Published in EPJ Web of Conferences, 249. Available

Cárdenas-Barrantes, M., Cantor, D., Barés, J., Renouf, M., & Azéma, É. (2021, July). A micro-mechanical compaction model for granular mix of soft and rigid particles [Paper]. 9th International Conference on Micromechanics on Granular Media Powders & Grains (4 pages). Published in EPJ Web of Conferences, 249. External link

Cárdenas-Barrantes, M., Cantor, D., Barés, J., Renouf, M., & Azéma, É. (2021). Micromechanical description of the compaction of soft pentagon assemblies. Physical Review E, 103(6), 10 pages. External link

Cantor, D., Cárdenas-Barrantes, M., Preechawuttipong, I., Renouf, M., & Azéma, É. (2020). Compaction Model for Highly Deformable Particle Assemblies. Physical Review Letters, 124(20), 208003 (6 pages). External link

Cárdenas-Barrantes, M., Cantor, D., Barés, J., Renouf, M., & Azéma, É. (2020). Compaction of mixtures of rigid and highly deformable particles: A micromechanical model. Physical Review E, 102(3), 10 pages. External link

P

Polanía, O., Renouf, M., Cabrera, M., Estrada, N., & Azéma, É. (2025). Monodisperse behavior of polydisperse flows [Discussion or Letter]. Physical Review E, 111(4), L043401 (7 pages). External link

Polanía, O., Estrada, N., Azéma, É., Renouf, M., & Cabrera, M. (2024). Polydispersity effect on dry and immersed granular collapses: an experimental study. Journal of Fluid Mechanics, 983, A40 (19 pages). External link

Polanía, O., Cabrera, M., Renouf, M., Azéma, É., & Estrada, N. (2023). Grain size distribution does not affect the residual shear strength of granular materials: An experimental proof. Physical Review E, 107(5), L052901 (6 pages). External link

Polanía, O., Estrada, N., Renouf, M., Azéma, É., & Cabrera, M. (2023, June). Granular column collapse : the role of particle size polydispersity on the velocity and runout [Paper]. 8th International Conference on Debris Flow Hazard Mitigation (DFHM 2023), Torino, Italy (3 pages). Published in E3S Web of Conference, 415. Available

Polanía, O., Cabrera, M., Renouf, M., & Azéma, É. (2022). Collapse of dry and immersed polydisperse granular columns: A unified runout description. Physical Review Fluids, 7(8), 084304 (16 pages). External link

Q

Quiroz-Rojo, P., Cantor, D., Renouf, M., Azéma, É., & Ovalle, C. (2025). Micro- and Macro-Mechanical Analysis of Rev in Sheared Polydisperse Granular Samples. IOP Conference Series Earth and Environmental Science, 1480(1), 012076 (4 pages). External link

Quiroz-Rojo, P., Cantor, D., Renouf, M., Émilien, A., & Ovalle, C. (2024, September). Micro- and macro-mechanical analyses of rev in sheared granular samples [Paper]. 2024 International Symposium on Geomechanics from Micro to Macro, Grenoble, France. External link

Quiroz-Rojo, P., Ovalle, C., Girumugisha, G., Cantor, D., Azéma, É., & Renouf, M. (2024, November). Particle size effects on critical strength of granular soils through numerical and laboratory testing [Paper]. 17th Pan-American Conference on Soil Mechanics and Geotechnical Engineering (PCSMGE 2024), La Serena, Chile (5 pages). External link

Quiroz-Rojo, P., Cantor, D., Renouf, M., Ovalle, C., & Azéma, É. (2024). Rev assessment of granular materials with varied grading based on macro- and micro-mechanical statistical data. ACTA Geotechnica, 14 pages. External link

R

Renouf, M., Azéma, É., & Mozul, R. (2019, September). The contact dynamics (CD) method, as a discrette element method for the simulation of granular asteroid [Paper]. EPSC-DPS Joint Meeting, Geneva, Switzerland (2 pages). External link

S

Sanchez, P., Renouf, M., & Azéma, É. (2023, March). Modelling gravitational accretion : observable polydispersity at the surface VS real polydispersity preliminary results [Paper]. 54th Lunar and Planetary Science Conference, The Woodlands, Texas, USA / En ligne / Online (2 pages). External link

Sánchez, P., Renouf, M., Azéma, É., Mozul, R., & Dubois, F. (2021). A contact dynamics code implementation for the simulation of asteroid evolution and regolith in the asteroid environment. Icarus, 363, 114441 (16 pages). External link

Sánchez, P., Renouf, M., Azéma, É., & Mozul, R. (2021, July). A contact dynamics open source code for the simulation of granular asteroid with realistic regolith shapes - application to the accretion process [Paper]. 9th International Conference on Micromechanics on Granular Media (Powders & Grains 2021), Buenos, Argentina (4 pages). Published in E3S Web of Conference, 249. External link

W

Wang, W., Barés, J., Renouf, M., & Azéma, É. (2024). Steady granular flow in a rotating drum: A theoretical nonlocal model for characterizing stress, velocity, and packing fraction profiles, encompassing grain shape effects from convex to highly concave. Physical Review Research, 6(4). Available

Wang, W., Barés, J., Renouf, M., & Azéma, É. (2022, August). Écoulement en tambour tournant de milieux granulaires à grains fortement concaces [Paper]. 25ième Congrès Français de Mécanique 2022 (CFM 2022), Nantes, France. Unavailable