C. André and J. F. Demeyre, Dimensional analysis of a planetary mixer for homogenizing of free flowing powders: Mixing time and power consumption, Chemical Engineering Journal, vol.198, pp.371-78, 2012.

C. André, J. F. Demeyre, C. Gatumel, H. Berthiaux, and G. Delaplace, Derivation of dimensionless relationships for the agitation of powders of different flow behaviours in a planetary mixer, Powder Technology, vol.256, pp.33-38, 2014.

D. F. Bagster and J. Bridgewater, The measurement of the force needed to move blades through a bed of cohesionless granules, Powder Technology, vol.1, pp.80036-80042, 1967.

D. F. Bagster and J. Bridgewater, The flow of granular material over a moving blade, Powder Technology, vol.3, issue.69, p.80104, 1969.

V. Boonkanokwong, B. Remy, J. G. Khinast, and B. J. Glasser, The effect of the number of impeller blades on granular flow in a bladed mixer, Powder Technology, vol.302, pp.333-382, 2016.

R. L. Carr, Evaluating flow properties of solids, Chemical Engineering, vol.72, pp.163-68, 1965.

M. Cavinato, R. Artoni, M. Bresciani, P. Canu, and A. Santomaso, Scale-up effects on flow patterns in the high shear mixing of cohesive powders, Chemical Engineering Science, vol.102, pp.1-9, 2013.

G. R. Chandratilleke, A. B. Yu, and J. Bridgwater, A DEM study of the mixing of particles induced by a flat blade, Chemical Engineering Science, vol.79, pp.54-74, 2012.

G. R. Chandratilleke, A. B. Yu, R. L. Stewart, and J. Bridgwater, Effects of blade rake angle and gap on particle mixing in a cylindrical mixer, Special Issue: Discrete Element Methods: The 4th International conference on Discrete Element Methods The 4th International Conference on Discrete Element Methods, vol.193, pp.303-314, 2007.

P. W. Cleary, Particulate mixing in a plough share mixer using DEM with realistic shaped particles, Powder Technology, vol.248, 2013.

S. L. Conway, A. Lekhal, J. G. Khinast, and B. J. Glasser, Granular flow and segregation in a four-bladed mixer, Chemical Engineering Science, vol.60, pp.7091-107, 2005.

J. Demeyre, Caractérisation de l'homogénéité de mélange de poudres et de l'agitation en mélangeur Triaxe 1, 2007.

M. Halidan, G. R. Chandratilleke, S. L. Chan, A. B. Yu, and J. Bridgwater, Prediction of the mixing behaviour of binary mixtures of particles in a bladed mixer, Chemical Engineering Science, vol.120, pp.37-48, 2014.

J. Havlica, K. Jirounkova, T. Travnickova, and M. Kohout, The effect of rotational speed on granular flow in a vertical bladed mixer, Powder Technology, vol.280, pp.180-90, 2015.

P. C. Knight, J. P. Seville, A. B. Wellm, and T. Instone, Prediction of impeller torque in high shear powder mixers, Chemical Engineering Science, vol.56, pp.4457-471, 2001.

B. F. Laurent and J. Bridgwater, Influence of agitator design on powder flow, Chemical Engineering Science, vol.57, pp.317-319, 2002.

B. F. Laurent and P. W. Cleary, Comparative study by PEPT and DEM for flow and mixing in a ploughshare mixer, Powder Technology, vol.228, pp.171-86, 2012.

L. Legoix, C. Gatumel, M. Milhé, and H. Berthiaux, Rheology of cohesive powders in a pilot scale planetary blender, Powder Technology, vol.305, pp.609-628, 2017.
URL : https://hal.archives-ouvertes.fr/hal-01619258

M. Leturia, M. Benali, S. Lagarde, I. Ronga, and K. Saleh, Characterization of flow properties of cohesive powders: A comparative study of traditional and new testing methods, Powder Technology, vol.253, pp.406-429, 2014.
URL : https://hal.archives-ouvertes.fr/hal-02190981

S. Makishima and T. Shirai, Experimental study on the power requirements for agitating beds of solid particles, and proposal of a new model, Journal of Chemical Engineering of Japan, vol.1, pp.168-74, 1968.

K. Malhotra, A. S. Mujumdar, and M. Miyahara, Estimation of particle renewal rates along the wall in a mechanically stirred granular bed, Chemical Engineering and Processing: Process Intensification, vol.27, pp.121-151, 1990.

K. Malhotra, A. S. Mujumdar, and M. Okazaki, Particle flow patterns in a mechanically stirred two-dimensional cylindrical vessel, Powder Technology, vol.60, pp.179-89, 1990.

K. Malhotra, A. S. Mujumdar, H. Imakoma, and M. Okazaki, Fundamental particle mixing studies in an agitated bed of granular materials in a cylindrical vessel, Powder Technology, vol.55, pp.107-121, 1988.

K. Malhotra and A. S. Mujumdar, Particle mixing and solids flowability in granular beds stirred by paddle-type blades, Powder Technology, vol.61, pp.155-64, 1990.

C. Mayer-laigle, Étude dynamique et effet du changement d'échelle pour plusieurs systèmes particulaires en mélangeur Turbula 1 : Application à un mélange destiné à la fabrication de plaques composites, 2012.

J. Mellmann, The transverse motion of solids in rotating cylindersforms of motion and transition behavior, Powder Technology, vol.118, pp.251-70, 2001.

M. Moakher, T. Shinbrot, and F. J. Muzzio, Experimentally validated computations of flow, mixing and segregation of non-cohesive grains in 3D tumbling blenders, Powder Technology, vol.109, pp.58-71, 2000.

S. Radl, D. Brandl, H. Heimburg, B. J. Glasser, and J. G. Khinast, Flow and mixing of granular material over a single blade, Powder Technology, vol.226, pp.199-211, 2012.

B. Remy, J. G. Khinast, and B. J. Glasser, Polydisperse granular flows in a bladed mixer: Experiments and simulations of cohesionless spheres, Chemical Engineering Science, vol.66, pp.1811-824, 2011.

B. Remy, T. M. Canty, J. G. Khinast, and B. J. Glasser, Experiments and simulations of cohesionless particles with varying roughness in a bladed mixer, Chemical Engineering Science, vol.65, pp.4557-571, 2010.

M. S. Siraj, Single-blade convective powder mixing: The effect of the blade shape and angle, Powder Technology, vol.267, pp.289-301, 2014.

Y. C. Zhou, A. B. Yu, R. L. Stewart, and J. Bridgwater, Microdynamic analysis of the particle flow in a cylindrical bladed mixer, Chemical Engineering Science, vol.59, pp.1343-364, 2004.