| 1 |
Binder jetting of well-controlled powder agglomerates for breakage studies
Zhang J, Amini N, Morton DAV, Hapgood KP
Advanced Powder Technology, 32(1), 19, 2021 |
| 2 |
3D printing of tuneable agglomerates: Strain distribution and effect of internal flaws
Zhang J, Amini N, Morton DAV, Hapgood KP
Advanced Powder Technology, 31(7), 2711, 2020 |
| 3 |
Continuum prediction of entrainment rates and agglomeration of gas-fluidized, lightly-cohesive particles
Kellogg KM, Liu PY, Hrenya CM
Chemical Engineering Science, 199, 249, 2019 |
| 4 |
Discrete element method modelling of impact breakage of ellipsoidal agglomerate
Zeng Y, Jia FG, Xiao YW, Han YL, Meng XY
Powder Technology, 346, 57, 2019 |
| 5 |
Simulation of agglomerate breakage and restructuring in shear flows: Coupled effects of shear gradient, surface energy and initial structure
Liu DY, Wang Z, Chen XP, Liu ML
Powder Technology, 336, 102, 2018 |
| 6 |
Numerical modeling of adhesive particle mixing
Tamadondar MR, Rasmuson A, Thalberg K, Bjorn IN
AIChE Journal, 63(7), 2599, 2017 |
| 7 |
Statistical investigation of agglomerate breakage based on combined stochastic microstructure modeling and DEM simulations
Spettl A, Dosta M, Antonyuk S, Heinrich S, Schmidt V
Advanced Powder Technology, 26(3), 1021, 2015 |
| 8 |
Examining the failure modes of wet granular materials using dynamic diametrical compression
Smith RM, Litster JD
Powder Technology, 224, 189, 2012 |
| 9 |
Modelling of pharmaceutical granule size reduction in a conical screen mill
Reynolds GK
Chemical Engineering Journal, 164(2-3), 383, 2010 |
| 10 |
Application of X-ray microtomography to numerical simulations of agglomerate breakage by distinct element method
Golchert DJ, Moreno R, Ghadiri M, Litster J, Williams R
Advanced Powder Technology, 15(4), 447, 2004 |
