1 |
An alternative strategy to compensate for screw wear in gravity induced stirred mills Esteves PM, Mazzinghy DB, Hilden MM, Yahyaei M, Powell MS, Galery R Powder Technology, 379, 384, 2021 |
2 |
A generic wear prediction procedure based on the discrete element method for ball mill liners in the cement industry Boemer D, Ponthot JP Minerals Engineering, 109, 55, 2017 |
3 |
Understanding performance variation of a HICOM (R) mill with operating conditions and media attributes Owen P, Cleary PW International Journal of Mineral Processing, 155, 13, 2016 |
4 |
Relining efficiency and liner design for improved plant performance Yahyaei M, Powell MS, Toor P, Tuxford A, Limpus A Minerals Engineering, 83, 64, 2015 |
5 |
The contribution of DEM to the science of comminution Weerasekara NS, Powell MS, Cleary PW, Tavares LM, Evertsson M, Morrison RD, Quist J, Carvalho RM Powder Technology, 248, 3, 2013 |
6 |
DEM modelling of liner evolution and its influence on grinding rate in ball mills Powell MS, Weerasekara NS, Cole S, LaRoche RD, Favier J Minerals Engineering, 24(3-4), 341, 2011 |
7 |
Study of the influence of liner wear on the load behaviour of an industrial dry tumbling mill using the Discrete Element Method (DEM) Kalala JT, Breetzke M, Moys MH International Journal of Mineral Processing, 86(1-4), 33, 2008 |
8 |
Discrete element method (DEM) modelling of evolving mill liner profiles due to wear. Part II. Industrial case study Kalala JT, Bwalya M, Moys MH Minerals Engineering, 18(15), 1392, 2005 |