Knowledge Center

Article / May 19, 2020

Roller Compaction scale-up made simple: an approximate analytical solution to Johanson's rolling theory

Authors:
  • Ricardo Sousa
  • Pedro Valente
  • Mostaf Nakach
  • Lionel Bardet
  • Marie Wacquet
  • Noel Midoux
  • Jean-Rene Authelin
Source:
Journal of Pharmaceutical Sciences, May 19, 2020

An approximate analytical solution to Johanson's rolling theory is derived. It is shown that the solution yields a single dimensionless parameter invariant in process scale-up or equipment transfer, which relates the densification factor with process parameters (roll force and gap), geometric parameters (roll diameter and width) and material properties. It is shown that, to a first approximation, the model prediction does not depend on the nip angle evading the need to powder rheometry measurements such as wall friction and internal shear angle. The model is benchmarked against data obtained from pilot-scale roller compactors from different manufacturers as well as literature data from Nesarikar. The model yields good ribbon density predictions even when calibrating material properties from uniaxial die compression.

 

 

The paper entitled "Roller Compaction scale-up made simple: an approximate analytical solution to Johanson’s rolling theory" (Vol. 109, Issue 8, pages 2536-2543), which was published in the Journal of Pharmaceutical Sciences (JPharmSci®), was selected by the Editors to be featured on the journal's website under the "Free Virtual Issue" tab as the Most Original and Most Significant Scientific Findings.