| 1 |
A study on the pelletizing condition for roll compaction of powdered radioactive wastes
Lim SH, Kim SI, Song JS, Kim KH
Powder Technology, 384, 554, 2021 |
| 2 |
Analysis of densification mechanisms of dry granulated materials
Uniyal S, Gandarillas LP, Michrafy M, Oulahna D, Michrafy A
Advanced Powder Technology, 31(1), 351, 2020 |
| 3 |
Potentials and limitations of thermography as an in-line tool for determining ribbon solid fraction
Wiedey R, Kleinebudde P
Powder Technology, 341, 2, 2019 |
| 4 |
Microcrystalline cellulose, lactose and lignin blends: Process mapping of dry granulation via roll compaction
Pishnamazi M, Casilagan S, Clancy C, Shirazian S, Iqbal J, Egan D, Edlin C, Croker DM, Walker GM, Collins MN
Powder Technology, 341, 38, 2019 |
| 5 |
The influence of isomalt particle morphology on tabletability after roll compaction/dry granulation
Grote S, Osthues H, Schaeffer F, Kleinebudde P
Powder Technology, 341, 59, 2019 |
| 6 |
Hybrid modeling of roll compaction processes with the Styl'One Evolution
Reimer HL, Kleinebudde P
Powder Technology, 341, 66, 2019 |
| 7 |
Is the adjustment of the impeller speed a reliable attempt to influence granule size in continuous dry granulation?
Mangal H, Kleinebudde P
Advanced Powder Technology, 29(6), 1339, 2018 |
| 8 |
A combined DEM & FEM approach for modelling roll compaction process
Mazor A, Orefice L, Michrafy A, de Ryck A, Khinast JG
Powder Technology, 337, 3, 2018 |
| 9 |
Infrared thermography - A new approach for in-line density measurement of ribbons produced from roll compaction
Wiedey R, Kleinebudde P
Powder Technology, 337, 17, 2018 |
| 10 |
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 |
