| 1 |
Application of discrete element simulation in mechanical activation of boron concentrate
Kim KC, Jiang T, Xu YZ, Kim NI, Jin HS, Kim JC
Powder Technology, 382, 441, 2021 |
| 2 |
Dynamics calibration of particle sandpile packing characteristics via discrete element method
Dai L, Sorkin V, Vastola G, Zhang YW
Powder Technology, 347, 220, 2019 |
| 3 |
Predicting effects of operating condition variations on breakage rates in stirred media mills
Fragniere G, Beinert S, Overbeck A, Kampen I, Schilde C, Kwade A
Chemical Engineering Research & Design, 138, 433, 2018 |
| 4 |
Particulate flow characteristics in a novel moving granular bed
Yin SW, He Y, Wang L, Liu CP, Tong LG, Ding YL
Powder Technology, 340, 217, 2018 |
| 5 |
Optimization and experimental study of transport section lateral pressure of pipe belt conveyor
Guo YC, Wang S, Hu K, Li DY
Advanced Powder Technology, 27(4), 1318, 2016 |
| 6 |
Segregation of Granular Particles by Mass, Radius, and Density in a Horizontal Rotating Drum
Arntz MMHD, Beeftink HH, den Otter WK, Briels WJ, Boom RM
AIChE Journal, 60(1), 50, 2014 |
| 7 |
The mixing of cohesive granular materials featuring a large size range in the absence of gravity
Aarons LR, Balachandar S, Horie Y
Powder Technology, 235, 18, 2013 |
| 8 |
Scale-up of high shear mixer-granulator based on discrete element analysis
Nakamura H, Fujii H, Watano S
Powder Technology, 236, 149, 2013 |
| 9 |
Compaction of aggregated ceramic powders: From contact laws to fracture and yield surfaces
Pizette P, Martin CL, Delette G, Sornay P, Sans F
Powder Technology, 198(2), 240, 2010 |
| 10 |
Utilization of a Radial Temperature Model for Heat Conduction within Spherical Particles to Model Granular Assemblies
Rickelt S, Wirtz S, Scherer V, Kruggel-Emden H
Chemical Engineering & Technology, 31(11), 1660, 2008 |
