Impact of fine particles on the rheological properties of uranium dioxide powders |
Madian, A.
(Sorbonne Universites, Universite de Technologie de Compiegne, EA 4297 TIMR, Centre de Recherche Royallieu)
Leturia, M. (Sorbonne Universites, Universite de Technologie de Compiegne, EA 4297 TIMR, Centre de Recherche Royallieu) Ablitzer, C. (CEA, DEN, DEC, Centre de Cadarache) Matheron, P. (CEA, DEN, DEC, Centre de Cadarache) Bernard-Granger, G. (CEA, DEN, DMRC, Centre de Marcoule) Saleh, K. (Sorbonne Universites, Universite de Technologie de Compiegne, EA 4297 TIMR, Centre de Recherche Royallieu) |
1 | Commissariat a lenergie atomique et aux energies alternatives (CEA), Sodiumcooled nuclear reactors, Editions Le Moniteur, France, 2016. |
2 | X. Fu, D. Huck, L. Makein, B. Armstrong, U. Willen, T. Freeman, Effect of particle shape and size on flow properties of lactose powders, Particuology 10 (2012) 203-208. DOI |
3 | Q. Li, V. Rudolph, B. Weigl, A. Earl, Interparticle van der Waals force in powder flowability and compactibility, Int. J. Pharm. 280 (2004) 77-93. DOI |
4 | E.C. Abdullah, D. Geldart, The use of bulk density measurements as flowability indicators, Powder Technol. 102 (1999) 151-165. DOI |
5 | D. Geldart, E. Abdullah, A. Verlinden, Characterisation of dry powders, Powder Technol. 190 (2009) 70-74. DOI |
6 | K. Traina, R. Cloots, S. Bontempi, G. Lumay, N. Vandewalle, F. Boschini, Flow abilities of powders and granular materials evidenced from dynamical tap density measurement, Powder Technol. 235 (2013) 842-852. DOI |
7 | Z. Chik, L.E. Vallejo, Characterization of the angle of repose of binary granular materials, Can. Geotech. J. 42 (2005) 683-692. DOI |
8 | D. Schulze, Powders and Bulk Solids: Behavior, Characterization, Storage and Flow, Springer, 2008. |
9 | M. Krantz, H. Zhang, J. Zhu, Characterization of powder flow: static and dynamic testing, Powder Technol. 194 (2009) 239-245. DOI |
10 | M. Leturia, M. Benali, S. Lagarde, I. Ronga, K. Saleh, Characterization of flow properties of cohesive powders: a comparative study of traditional and new testing methods, Powder Technol. 253 (2014) 406-423. DOI |
11 | A. Madian, C. Ablitzer, M. Leturia, P. Matheron, K. Saleh, G. Bernard-Granger, Etude des proprietes rheologiques de poudres d'oxyde d'uranium, in: 16eme Congres de la Societe Francaise de Genie des Procedes, Nancy, 2017. |
12 |
A. Madian, Etude de l'in |
13 | R.L. Carr Jr., Evaluating flow properties of solids, Chem. Eng. 72 (1965) 163-168. |
14 | H.H. Hausner, Friction Conditions in a Mass of Metal Powder, Polytechnic Inst. of Brooklyn. Univ. of California, Los Angeles, 1967. |
15 | A. Saker, M.-G. Cares-Pacheco, P. Marchal, V. Falk, Powders flowability assessment in granular compaction: what about the consistency of Hausner ratio? Powder Technol. 354 (2019) 52-63. DOI |
16 | J. Schwedes, D. Schulze, Measurement of flow properties of bulk solids, Powder Technol. 61 (1990) 59-68. DOI |
17 | R. Freeman, Measuring the flow properties of consolidated, conditioned and aerated powdersda comparative study using a powder rheometer and a rotational shear cell, Powder Technol. 174 (2007) 25-33. DOI |
18 | A.W. Jenike, Storage and Flow of Solids, Bulletin 123, Engineering Experiment Station, University of Utah, 1964. |
19 | T.A. Bell, Powder handling-industrial needs in solids flow for the 21st Century, Powder Handl. Process. 11 (1999) 9-12. |
20 | K. Saleh, P. Guigon, Mise en oeuvre des poudres - Stockage et ecoulement des silos, Techniques de l'ingenieur, 2012, p. J2255. |
21 | W.-H. Wei, L.-Z. Wang, T. Chen, X.-M. Duan, W. Li, Study on the flow properties of Ti-6Al-4V powders prepared by radio-frequency plasma spheroidization, Adv. Powder Technol. 28 (2017) 2431-2437. DOI |
22 | R. Freeman, X. Fu, Characterisation of powder bulk, dynamic flow and shear properties in relation to die filling, Powder Metall. 51 (2008) 196-201. DOI |
23 | A. D7891-15, Standard Test Method for Shear Testing of Powders Using the Freeman Technology FT4 Powder Rheometer Shear Cell, ASTM International, 2015. |
24 | M. Li, M. Leturia, K. Saleh, Analysis of the periodic motion in a powder rheometer and development of a new flowability testing method, KONA Powder Part. J. 35 (2018) 160-171. DOI |
![]() |