R. W. Miller, Handbook of pharmaceutical Granulation Technology, Roller Compaction Technology, 2005.

S. Malkowska and K. A. Khan, Effect of recompression on the properties of tablets prepared by dry granulation, Drug Dev. Ind. Pharm, vol.9, pp.331-347, 1983.

M. A. Falzone, E. P. Garnet, and G. P. Mccabe, Effects of changes in roller compactor parameters on granulations produced by compaction, Drug Dev. Ind. Pharm, vol.18, pp.469-489, 1992.

S. Changquan and M. W. Himmelspach, Reduced tabletability of roller compacted granules as a result of granule size enlargement, J. Pharm. Sci, vol.95, pp.200-206, 2006.

M. G. Herting and P. Kleinebudde, Studies on the reduction of tensile strength of tablets after roll compaction/dry granulation, Eur. J. Pharm. Biopharm, vol.70, pp.372-379, 2008.

T. Kennedy, S. Hampshire, and Y. Yaginuma, A study of the compaction mechanism of granulated materials, J. Eur. Ceram. Soc, vol.17, pp.133-139, 1997.

K. Kondoh, R. Watanabe, and H. Hashimoto, Analysis of compaction behaviour of wet granulated aluminium alloy powder, Powder Metall, vol.43, pp.359-363, 2000.

B. Mitra, J. Hilden, and J. D. Litster, Compaction mechanics of plastically deformable dry granules, Powder Technol, vol.291, pp.328-336, 2016.

A. Michrafy, D. Ringenbacher, and P. Tcheroloff, Modelling the compaction behaviour of powders : application to pharmaceutical powders, Powder Technol, vol.127, pp.257-266, 2002.
URL : https://hal.archives-ouvertes.fr/hal-01718086

V. Bonnefoy and P. Doremus, Guidelines for modeling cold compaction behaviour of various powders, Powder Metall, vol.47, pp.285-290, 2004.

A. Michrafy, H. Diarra, and J. A. Dodds, Compaction behaviour of binary tablets, Powder Technol, vol.190, pp.146-151, 2009.

P. Doremus, Model Input data -Failure, Modelling of Powder Die Compaction, pp.95-103, 2008.

L. H. Han, J. A. Elliott, A. C. Bentham, A. Mills, G. E. Amidon et al., A modified drucker-prager Cap model for die compaction simulation of pharmaceutical powders, Int. J. Solids Struct, vol.45, pp.3088-3106, 2008.

M. S. Kadiri and A. Michrafy, The effect of punch's shape on die compaction of pharmaceutical powders, Powder Technol, vol.239, pp.467-777, 2013.

A. Krok, M. Peciar, and R. Fekete, Numerical investigation into the influence of the punch shape on the mechanical behavior of pharmaceutical powders during compaction, Particuology, Chinese Society of Particuology, vol.16, pp.116-131, 2014.

J. C. Cunningham, I. C. Sinka, and A. Zavaliangos, Analysis of tablet compaction, I. Characterization of mechanical behavior of powder and powder/tooling friction, J. Pharm. Sci, vol.93, pp.2022-2039, 2004.

K. Lamarche, D. Buckley, R. Hartley, F. Qian, and S. Badawy, Assessing materials' tablet compaction properties using the Drucker-Prager cap model, Powder Technol, vol.267, pp.208-220, 2014.

S. Garner, J. Strong, and A. Zavaliangos, The extrapolation of the Drucker-Prager/cap material parameters to low and high relative densities, Powder Technol, vol.283, pp.210-226, 2015.

A. Mazor, L. Perez-gandarillas, A. De-ryck, and A. Michrafy, Effect of roll compactor sealing system designs: a finite element analysis, Powder Technol, vol.289, pp.21-30, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01609015

. Pr, O. Brewin, P. Coube, and . Doremus, Modelling of Powder Die Compaction, 2008.

. Fig, Yield surfaces at different relative densities (RD): (a) RD = 0.5; (b) RD = 0, vol.12