| 1 |
Computational intelligence modelling of pharmaceutical tabletting processes using bio-inspired optimization algorithms
Zawbaa HM, Schiano S, Perez-Gandarillas L, Grosan C, Michrafy A, Wu CY
Advanced Powder Technology, 29(12), 2966, 2018 |
| 2 |
Sensitivity of elastic parameters during the numerical simulation of pharmaceutical die compaction process with Drucker-Prager/Cap model
Diarra H, Mazel V, Busignies V, Tchoreloff P
Powder Technology, 332, 150, 2018 |
| 3 |
Compaction properties of dry granulated powders based on Drucker-Prager Cap model
Perez-Gandarillas L, Mazor A, Lecoq O, Michrafy A
Powder Technology, 337, 43, 2018 |
| 4 |
Comparative study between Drucker-Prager/Cap and modified Cam-Clay models for the numerical simulation of die compaction of pharmaceutical powders
Diarra H, Mazel V, Busignies V, Tchoreloff P
Powder Technology, 320, 530, 2017 |
| 5 |
Finite element analysis of thermomechanical behaviour of powders during tabletting
Krok A, Garcia-Trinanes P, Peciar M, Wu CY
Chemical Engineering Research & Design, 110, 141, 2016 |
| 6 |
Stress distributions in compacted powders in convergent and stepped dies
Zhang JF, Wensrich CM, Kisi EH, Luzin V, Kirstein O, Smith AL
Powder Technology, 292, 23, 2016 |
| 7 |
Application of a piston equation to describe die compaction of powders
Aryanpour G, Farzaneh M
Powder Technology, 277, 120, 2015 |
| 8 |
Analysis on the die compaction of anode paste material used in aluminum production plants
Aryanpour G, Alamdari H, Azari I, Ziegler D, Picard D, Fafard M
Powder Technology, 254, 228, 2014 |
| 9 |
Effects of lubricant on green strength, compressibility and ejection of parts in die compaction process
Enneti RK, Lusin A, Kumar S, German RM, Atre SV
Powder Technology, 233, 22, 2013 |
| 10 |
Finite Element Method (FEM) modeling of the powder compaction of cosmetic products: Comparison between simulated and experimental results
Diarra H, Mazel V, Boillon A, Rehault L, Busignies V, Bureau S, Tchoreloff P
Powder Technology, 224, 233, 2012 |
