| 1 |
A review of existing mixing indices in solid-based continuous blending operations
Bhalode P, Ierapetritou M
Powder Technology, 373, 195, 2020 |
| 2 |
Mechanistic approach in powder blending PAT: Bi-layer mixing and asymptotic end point prediction
Sibik J, Chalus P, Maurer L, Murthy A, Krimmer S
Powder Technology, 308, 306, 2017 |
| 3 |
Differential scanning calorimetric characterization of pharmaceutical powder blend uniformity in a laboratory-scale V-blender
Mahmood S, Hilmi NNB, Husain NKB, Chatterjee B, Mandal UK
Powder Technology, 287, 152, 2016 |
| 4 |
Exploring mixing uniformity of a pharmaceutical blend in a high shear mixture granulator using enthalpy values obtained from DSC
Bharvada E, Shah V, Misra M
Powder Technology, 276, 103, 2015 |
| 5 |
Spatially resolved monitoring of powder mixing processes via multiple NIR-probes
Scheibelhofer O, Balak N, Koller DM, Khinast JG
Powder Technology, 243, 161, 2013 |
| 6 |
Continuous quantitative monitoring of powder mixing dynamics by near-infrared spectroscopy
Koller DM, Posch A, Horl G, Voura C, Radl S, Urbanetz N, Fraser SD, Tritthart W, Reiter F, Schlingmann M, Khinast JG
Powder Technology, 205(1-3), 87, 2011 |
| 7 |
Process analytical technology applied for end-point detection of pharmaceutical blending by combining two calibration-free methods: Simultaneously monitoring specific near-infrared peak intensity and moving block standard deviation
Momose W, Imai K, Yokota S, Yonemochi E, Terada K
Powder Technology, 210(2), 122, 2011 |
| 8 |
An experimental investigation of effusivity as an indicator of powder blend uniformity
Leonard G, Bertrand F, Chaouki J, Gosselin PM
Powder Technology, 181(2), 149, 2008 |
