1 |
Improving the effectiveness of the Comil as a dry-coating process: Enabling direct compaction for high drug loading formulations Capece M, Borchardt C, Jayaraman A Powder Technology, 379, 617, 2021 |
2 |
Population balance modeling applied to the milling of pharmaceutical extrudate for use in scale-up Capece M Advanced Powder Technology, 29(12), 3022, 2018 |
3 |
A pseudo-coupled DEM-non-linear PBM approach for simulating the evolution of particle size during dry milling Capece M, Dave RN, Bilgili E Powder Technology, 323, 374, 2018 |
4 |
On the origin of non-linear breakage kinetics in dry milling Capece M, Dave RN, Bilgili E Powder Technology, 272, 189, 2015 |
5 |
Prediction of powder flow performance using a multi-component granular Bond number Capece M, Ho R, Strong J, Gao P Powder Technology, 286, 561, 2015 |
6 |
Formulation of a physically motivated specific breakage rate parameter for ball milling via the discrete element method Capece M, Bilgili E, Dave RN AIChE Journal, 60(7), 2404, 2014 |
7 |
Insight into first-order breakage kinetics using a particle-scale breakage rate constant Capece M, Bilgili E, Dave R Chemical Engineering Science, 117, 318, 2014 |
8 |
Prediction of porosity from particle scale interactions: Surface modification of fine cohesive powders Capece M, Huang Z, To D, Aloia M, Muchira C, Dave RN, Yu AB Powder Technology, 254, 103, 2014 |
9 |
Solventless polymer coating of microparticles Capece M, Dave RN Powder Technology, 261, 118, 2014 |
10 |
Influence of non-linear breakage kinetics on the attainment of self-similarity for dry milling processes Capece M, Dave R, Bilgili E Chemical Engineering Science, 97, 96, 2013 |