Wall friction in the compaction of pharmaceutical powders: measurement and effect on the density distribution
In this paper, the axial density profile of tablets of microcrystalline cellulose (MCC) powder compacted in nonlubricated die is investigated by finite element modelling (FEM). The Drucker–Prager/Cap model was adopted for the compaction behavior of powder. The material parameters of the model, inclu...
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| Published in | Powder technology Vol. 148; no. 1; pp. 53 - 55 |
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| Format | Journal Article Conference Proceeding |
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20.10.2004
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| Abstract | In this paper, the axial density profile of tablets of microcrystalline cellulose (MCC) powder compacted in nonlubricated die is investigated by finite element modelling (FEM). The Drucker–Prager/Cap model was adopted for the compaction behavior of powder. The material parameters of the model, including the die wall friction coefficient, were estimated from experimental data of die compaction where the initial density of powder is taken uniform. Changes of Young's modulus with density was measured with a four-point beam bending test. The results of the simulation of the compression and the decompression steps were used to calculate the axial density distribution. Comparison with the measured data presented in [A. Michrafy, M.S. Kadiri, J.A.D. Dodds, Wall friction and its effects on the density distri-bution in the compaction of pharmaceutical excipients, Chem. Eng. Research and Design, Vol. 81, Part A, September (2003)] is discussed. |
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| AbstractList | In this paper, the axial density profile of tablets of microcrystalline cellulose (MCC) powder compacted in nonlubricated die is investigated by finite element modelling (FEM). The Drucker--Prager/Cap model was adopted for the compaction behavior of powder. The material parameters of the model, including the die wall friction coefficient, were estimated from experimental data of die compaction where the initial density of powder is taken uniform. Changes of Young's modulus with density was measured with a four--point beam bending test. The results of the simulation of the compression and the decompression steps were used to calculate the axial density distribution. Comparison with the measured data presented in [A. Michrafy, M.S. Kadiri, J.A.D. Dodds, Wall friction and its effects on the density distribution in the compaction of pharmaceutical excipients, Chem. Eng. Research and Design, Vol. 81, Part A, September (2003)] is discussed. In this paper, the axial density profile of tablets of microcrystal line cellulose (MCC) powder compacted in nonlubricated die is investigated by finite element modelling (FEM). The Drucker-Prager/Cap model was adopted for the compaction behavior of powder. The material parameters of the model, including the die wall friction coefficient, were estimated from experimental data of die compaction where the initial density of powder is taken uniform. Changes of Young's modulus with density was measured with a four-point beam bending test. The results of the simulation of the compression and the decompression steps were used to calculate the axial density distribution. Comparison with the measured data presented in [A. Michrafy, M.S. Kadiri, J.A.D. Dodds. Wall friction and its effects on the density distribution in the compaction of pharmaceutical excipients, Chem. Eng. Research and Design. Vol. 81. Part A. September (2003)] is discussed. In this paper, the axial density profile of tablets of microcrystalline cellulose (MCC) powder compacted in nonlubricated die is investigated by finite element modelling (FEM). The Drucker–Prager/Cap model was adopted for the compaction behavior of powder. The material parameters of the model, including the die wall friction coefficient, were estimated from experimental data of die compaction where the initial density of powder is taken uniform. Changes of Young's modulus with density was measured with a four-point beam bending test. The results of the simulation of the compression and the decompression steps were used to calculate the axial density distribution. Comparison with the measured data presented in [A. Michrafy, M.S. Kadiri, J.A.D. Dodds, Wall friction and its effects on the density distri-bution in the compaction of pharmaceutical excipients, Chem. Eng. Research and Design, Vol. 81, Part A, September (2003)] is discussed. |
| Author | Dodds, J.A. Michrafy, A. Kadiri, M.S. |
| Author_xml | – sequence: 1 givenname: A. surname: Michrafy fullname: Michrafy, A. email: michrafy@enstimac.fr – sequence: 2 givenname: J.A. surname: Dodds fullname: Dodds, J.A. – sequence: 3 givenname: M.S. surname: Kadiri fullname: Kadiri, M.S. |
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| Cites_doi | 10.1016/S0032-5910(96)03188-9 10.1016/0032-5910(77)85028-6 10.1002/jps.2600840304 10.1179/pom.1960.3.6.005 10.1016/S0032-5910(02)00119-5 10.1111/j.2042-7158.1956.tb12206.x 10.1007/BF01105119 10.1016/S0927-7757(97)00210-0 10.1205/026387603322482185 |
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| Keywords | Wall friction Finite element modelling Compaction Density distribution Design Compression Friction Friction coefficient Density Modeling Powder Bending test |
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| References | Train (bib2) 1956; 8 Long (bib6) 1960; 6 Michrafy, Ringenbacher, Tchoreloff (bib11) 2002; 127 Nebgen (bib3) 1995; 84 Hibbit, Karlsson and Sorensson, ABAQUS Theory Manual Version 5.7, p. 4.4.4-1 Nedderman (bib5) 1992 Es-Saheb (bib7) 1992; 27 Aydin, Briscoe, Sanliturk (bib8) 1996; 89 Macleod, Marshall (bib4) 1977; 16 Briscoe, Rough (bib9) 1998; 137 Michrafy, Kadiri, Dodds (bib1) 2003 (September); 81 Michrafy (10.1016/j.powtec.2004.09.021_bib1) 2003; 81 Train (10.1016/j.powtec.2004.09.021_bib2) 1956; 8 Aydin (10.1016/j.powtec.2004.09.021_bib8) 1996; 89 Long (10.1016/j.powtec.2004.09.021_bib6) 1960; 6 Macleod (10.1016/j.powtec.2004.09.021_bib4) 1977; 16 Es-Saheb (10.1016/j.powtec.2004.09.021_bib7) 1992; 27 Briscoe (10.1016/j.powtec.2004.09.021_bib9) 1998; 137 10.1016/j.powtec.2004.09.021_bib10 Michrafy (10.1016/j.powtec.2004.09.021_bib11) 2002; 127 Nebgen (10.1016/j.powtec.2004.09.021_bib3) 1995; 84 Nedderman (10.1016/j.powtec.2004.09.021_bib5) 1992 |
| References_xml | – volume: 84 start-page: 283 year: 1995 end-page: 291 ident: bib3 publication-title: J. Pharm. Sci. contributor: fullname: Nebgen – volume: 27 start-page: 4151 year: 1992 end-page: 4159 ident: bib7 article-title: Uniaxial strain rate effects in pharmaceutical powders during cold compaction publication-title: J. Mater. Sci. contributor: fullname: Es-Saheb – volume: 89 start-page: 239 year: 1996 end-page: 254 ident: bib8 article-title: The internal form of compacted ceramic components: a comparison of a finite element modelling with experiment publication-title: Powder Technol. contributor: fullname: Sanliturk – volume: 8 start-page: 747 year: 1956 ident: bib2 publication-title: Pharm. Pharmacol. contributor: fullname: Train – volume: 127 start-page: 257 year: 2002 end-page: 266 ident: bib11 article-title: Modelling the compaction behaviour of powders: application to pharmaceutical powders publication-title: Powder Technol. contributor: fullname: Tchoreloff – year: 1992 ident: bib5 article-title: Statics and Kinematics of Granular Materials contributor: fullname: Nedderman – volume: 6 start-page: 73 year: 1960 ident: bib6 article-title: Radial pressures in powder compaction publication-title: Powder Metall. contributor: fullname: Long – volume: 81 start-page: 946 year: 2003 (September) end-page: 951 ident: bib1 article-title: Wall friction and its effects on the density distribution in the compaction of pharmaceutical excipients publication-title: Chem. Eng. Res. Des. contributor: fullname: Dodds – volume: 137 start-page: 103 year: 1998 end-page: 116 ident: bib9 article-title: The effects of wall friction in powder compaction publication-title: Colloids Surf., A Physicochem. Eng. Asp. contributor: fullname: Rough – volume: 16 start-page: 107 year: 1977 end-page: 122 ident: bib4 publication-title: Powder Technol. contributor: fullname: Marshall – volume: 89 start-page: 239 year: 1996 ident: 10.1016/j.powtec.2004.09.021_bib8 article-title: The internal form of compacted ceramic components: a comparison of a finite element modelling with experiment publication-title: Powder Technol. doi: 10.1016/S0032-5910(96)03188-9 contributor: fullname: Aydin – volume: 16 start-page: 107 year: 1977 ident: 10.1016/j.powtec.2004.09.021_bib4 publication-title: Powder Technol. doi: 10.1016/0032-5910(77)85028-6 contributor: fullname: Macleod – ident: 10.1016/j.powtec.2004.09.021_bib10 – volume: 84 start-page: 283 year: 1995 ident: 10.1016/j.powtec.2004.09.021_bib3 publication-title: J. Pharm. Sci. doi: 10.1002/jps.2600840304 contributor: fullname: Nebgen – volume: 6 start-page: 73 year: 1960 ident: 10.1016/j.powtec.2004.09.021_bib6 article-title: Radial pressures in powder compaction publication-title: Powder Metall. doi: 10.1179/pom.1960.3.6.005 contributor: fullname: Long – volume: 127 start-page: 257 year: 2002 ident: 10.1016/j.powtec.2004.09.021_bib11 article-title: Modelling the compaction behaviour of powders: application to pharmaceutical powders publication-title: Powder Technol. doi: 10.1016/S0032-5910(02)00119-5 contributor: fullname: Michrafy – volume: 8 start-page: 747 year: 1956 ident: 10.1016/j.powtec.2004.09.021_bib2 publication-title: Pharm. Pharmacol. doi: 10.1111/j.2042-7158.1956.tb12206.x contributor: fullname: Train – year: 1992 ident: 10.1016/j.powtec.2004.09.021_bib5 contributor: fullname: Nedderman – volume: 27 start-page: 4151 year: 1992 ident: 10.1016/j.powtec.2004.09.021_bib7 article-title: Uniaxial strain rate effects in pharmaceutical powders during cold compaction publication-title: J. Mater. Sci. doi: 10.1007/BF01105119 contributor: fullname: Es-Saheb – volume: 137 start-page: 103 year: 1998 ident: 10.1016/j.powtec.2004.09.021_bib9 article-title: The effects of wall friction in powder compaction publication-title: Colloids Surf., A Physicochem. Eng. Asp. doi: 10.1016/S0927-7757(97)00210-0 contributor: fullname: Briscoe – volume: 81 start-page: 946 issue: Part A year: 2003 ident: 10.1016/j.powtec.2004.09.021_bib1 article-title: Wall friction and its effects on the density distribution in the compaction of pharmaceutical excipients publication-title: Chem. Eng. Res. Des. doi: 10.1205/026387603322482185 contributor: fullname: Michrafy |
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| Snippet | In this paper, the axial density profile of tablets of microcrystalline cellulose (MCC) powder compacted in nonlubricated die is investigated by finite element... In this paper, the axial density profile of tablets of microcrystal line cellulose (MCC) powder compacted in nonlubricated die is investigated by finite... |
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| SubjectTerms | Applied sciences Chemical engineering Compaction Density distribution Engineering Sciences Exact sciences and technology Finite element modelling Miscellaneous Solid-solid systems Wall friction |
| Title | Wall friction in the compaction of pharmaceutical powders: measurement and effect on the density distribution |
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