| 1 |
Determining a lower boundary of elasticity modulus used in the discrete element method (DEM) in simulation of tumbling mills
Ghasemi AR, Razi E, Banisi S
Advanced Powder Technology, 31(4), 1365, 2020 |
| 2 |
Geometric features of tumbling mill flows: A positron emission particle tracking investigation
de Klerk DN, Govender I, Mainza AN
Chemical Engineering Science, 206, 41, 2019 |
| 3 |
Analytical solution for the dynamic model of tumbling mills
Yu P, Xie WG, Liu LX, Powell MS
Powder Technology, 337, 111, 2018 |
| 4 |
Estimating energy in grinding using DEM modelling
Weerasekara NS, Liu LX, Powell MS
Minerals Engineering, 85, 23, 2016 |
| 5 |
Comminution mechanisms, particle shape evolution and collision energy partitioning in tumbling mills
Cleary PW, Morrison RD
Minerals Engineering, 86, 75, 2016 |
| 6 |
Effect of slurry pool formation on the load orientation, power draw, and impact force in tumbling mills
Soleymani MM, Fooladi M, Rezaeizadeh M
Powder Technology, 287, 160, 2016 |
| 7 |
Discrete element simulation of mill charge in 3D using the BLAZE-DEM GPU framework
Govender N, Rajamani RK, Kok S, Wilke DN
Minerals Engineering, 79, 152, 2015 |
| 8 |
Flow of materials in rod mills as compared to ball mills in dry systems
Abouzeid AZM, Fuerstenau DW
International Journal of Mineral Processing, 102, 51, 2012 |
| 9 |
Experimental validation of 2D DEM code by digital image analysis in tumbling mills
Perez-Alonso C, Delgadillo JA
Minerals Engineering, 25(1), 20, 2012 |
| 10 |
Studies of the effect of tracer activity on time-averaged positron emission particle tracking measurements on tumbling mills at PEPT Cape Town
Volkwyn TS, Buffler A, Govender I, Franzidis JP, Morrison AJ, Odo A, van der Meulen NP, Vermeulen C
Minerals Engineering, 24(3-4), 261, 2011 |
