A three-dimensional finite element model for powder compaction-time-dependent formulation and validation
Huang, L.; Puri, V.M.
Particulate Science and Technology 18(4): 257-274
2000
ISSN/ISBN: 0272-6351
Accession: 073836706
PDF emailed within 1 workday: $29.90
Related References
Bellet, M. 1999: Finite element analysis of compressible viscoplasticity using a three-field formulation application to metal powder hot compaction Computer Methods in Applied Mechanics and Engineering 175(1-2): 19-40Paul, J. Northey; Robert, C. Armstrong; Robert, A. Brown 1990: Finite element calculation of time-dependent two-dimensional viscoelastic flow with the explicitly elliptic momentum equation formulation Journal of Non-Newtonian Fluid Mechanics 36: 109-133
Lee, M.C.; Chung, S.H.; Cho, J.H.; Chung, S.T.; Kwon, Y.S.; Kim, H.J.; Joun, M.S. 2008: Three-dimensional finite element analysis of powder compaction process for forming cylinder block of hydraulic pump Powder Metallurgy 51(1): 89-94
Ziegelhoeffer A.; De Jong J.W.; Ferrari R.; Turi Nagy L. 1993: A finite-element simulation of powder compaction confirmed by model-material experiments Journal of Materials Processing Technology 36(2): 141-155
Ziegelhoeffer A.; De Jong J.W.; Ferrari R.; Turi Nagy L. 2009: Development of a finite element model of metal powder compaction process at elevated temperature Applied Mathematical Modelling 33(11): 4031-4048
Ahmed, S. 2005: Mathematical Formulation and Validation of a Mixed Finite Element Finite Difference Model for Simulating Phreatic Surfaces Journal of Hydraulic Engineering 131(12): 1098-1105
Eldin, A.; Watts, K. 1993: Development of a three dimensional finite element model for low speed soil compaction Paper er 1993 (93-1531 93-1560)
Eldin, A.; Shaibon, M.; Watts, K. 1993: Experimental evaluation of a three dimensional finite element model for low speed soil compaction Paper er 1993 (93-1531 93-1560)
Ziegelhoeffer A.; De Jong J.W.; Ferrari R.; Turi Nagy L. 1995: Elastoplastic finite element model development and validation for low pressure uniaxial compaction of dry cohesive powders Powder Technology 85(3): 241-251
Ariel, R. Muliadi; James, D. Litster; Carl, R. Wassgren 2012: Modeling the powder roll compaction process: Comparison of 2-D finite element method and the rolling theory for granular solids (Johanson's model) Powder Technology 221: 90-100
Hughes, T.J.R.; Franca, L.P.; Mallet, M. 1987: A new finite element formulation for computational fluid dynamics. VI: Convergence analysis of the generalized SUPG formulation for linear time-dependent multidimensional advective-diffusive systems Computer Methods in Applied Mechanics and Engineering 63(1): 97-112
González Cueto, O; Iglesias Coronel, C E.; Recarey Morfa, C A.; Urriolagoitia Sosa, G; Hernández Gómez, Lís H.; Urriolagoitia Calderón, G; Herrera Suárez, M 2013: Three dimensional finite element model of soil compaction caused by agricultural tire traffic Computers and Electronics in Agriculture 99: 146-152
Petersson, L.E.R.; Jian-Ming Jin, 2005: A two-dimensional time-domain finite element formulation for periodic structures IEEE Transactions on Antennas and Propagation 53(4): 1480-1488
Petersson, L.E.R.; Jin, J.-M. 2006: A Three-Dimensional Time-Domain Finite-Element Formulation for Periodic Structures IEEE Transactions on Antennas and Propagation 54(1): 12-19
Khoei, A.R.; Bakhshiani, A. 2004: A hypoelasto-plastic finite strain simulation of powder compaction processes with density-dependent endochronic model International Journal of Solids and Structures 41(22-23): 6081-6110