| 1 |
Particle technology education in the 21st century - Outcomes from the IFPRI sponsored workshop in Sheffield, April 2017
Litster JD, Michaels JN, Jacob KV
Powder Technology, 366, 144, 2020 |
| 2 |
Microstructure of micro-crystalline cellulose based granules produced by high-shear wet granulation with long wet-massing time
Farber L, Michaels JN
Chemical Engineering Research & Design, 132, 1054, 2018 |
| 3 |
Dense granular flow - A collaborative study
Mort P, Michaels JN, Behringer RP, Campbell CS, Kondic L, Langroudi MK, Shattuck M, Tang J, Tardos GI, Wassgren C
Powder Technology, 284, 571, 2015 |
| 4 |
Quantification of segregation potential for polydisperse, cohesive, multi-component powders and prediction of tablet die-filling performance - A methodology for practical testing, re-formulation and process design
Gentzler M, Michaels JN, Tardos GI
Powder Technology, 285, 96, 2015 |
| 5 |
Agglomeration of hydrophobic powders via solid spreading nucleation
Hapgood KP, Farber L, Michaels JN
Powder Technology, 188(3), 248, 2009 |
| 6 |
Steady states in granulation of pharmaceutical powders with application to scale-up
Michaels JN, Farber L, Wong GS, Hapgood K, Heidel SJ, Farabaugh J, Chou JH, Tardos GI
Powder Technology, 189(2), 295, 2009 |
| 7 |
Impact attrition of brittle structured particles at low velocities: rigorous use of a laboratory vibrational impact tester
Gentzler M, Michaels JN
Chemical Engineering Science, 59(24), 5949, 2004 |
| 8 |
Stress measurements in high-shear granulators using calibrated "test" particles: application to scale-up
Tardos GI, Hapgood KP, Ipadeola OO, Michaels JN
Powder Technology, 140(3), 217, 2004 |
| 9 |
Evolution and structure of drying material bridges of pharmaceutical excipients: studies on a microscope slide
Farber L, Tardos GI, Michaels JN
Chemical Engineering Science, 58(19), 4515, 2003 |
| 10 |
Use of X-ray tomography to study the porosity and morphology of granules
Farber L, Tardos G, Michaels JN
Powder Technology, 132(1), 57, 2003 |
