1. bookVolume 36 (2014): Edition 3 (September 2014)
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eISSN
2083-831X
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09 Nov 2012
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Numerical Simulation of Crater Creating Process in Dynamic Replacement Method by Smooth Particle Hydrodynamics

Publié en ligne: 28 Feb 2015
Volume & Edition: Volume 36 (2014) - Edition 3 (September 2014)
Pages: 3 - 8
Détails du magazine
License
Format
Magazine
eISSN
2083-831X
ISSN
0137-6365
Première parution
09 Nov 2012
Périodicité
4 fois par an
Langues
Anglais

[1] HIERMAIER S., Structures Under Crash and Impact, Springer, 2008.Search in Google Scholar

[2] LUCY L.B., A Numerical Approach to The Testing of The Fission Hypothesis, Astronomical Journal, 1977, 82, 1013-1024.10.1086/112164Search in Google Scholar

[3] MONAGHAN J.J., GINGOLD R.A., Smoothed Particle Hydrodynamics: Theory and Applications to Non-Spherical Stars, Royal Astronomical Society, 1977, 181, 275-389.10.1093/mnras/181.3.375Search in Google Scholar

[4] MONAGHAN J.J., LATTANZIO J.C., A Refined Particle Mathod for Astrophysical Problems, Astronomy and Astrophysics, 1985, 149, 135-143.Search in Google Scholar

[5] LIBERSKY L.D., PETSCHEK A.G., Smooth Particle Hydrodynamics With Strength of Materials, Proceedings of the Next Free-Lagrange Conference, Moran, WY, USA, 1990, 347, 248-267.10.1007/3-540-54960-9_58Search in Google Scholar

[6] BOJANOWSKI C., KULAK R., Comparsion of Lagrangian, SPH and MM-ALE approaches for Modeling Large Deformation in Soil, 11th International LS-DYNA Users Conference, 2010.Search in Google Scholar

[7] BOJANOWSKI C., KULAK R., Modeling of Cone Penetration Test Using SPH and MM-ALE Approaches, 8th European LS-DYNA Users Conference, 2011.Search in Google Scholar

[8] DANILEWICZ A., Smooth Particle Hydrodynamics (SPH) Approach in Simulating Large Penetration Into Soil, Proceedings of European Young Geotechnical Engineers Conference, Gothenburg 2012.Search in Google Scholar

[9] FASANELLA E.L., LYLE R.K.H., JACKSON K.E., Developing Soil Models for Dynamic Impact Simulations, NASA Langley Research Center, Hampton USA.Search in Google Scholar

[10] KULAK R.F., SCHWER L., Effect of Soil Material Models on SPH Simulations for Soil-Structure Interaction, Proceedings of 12th International LS-DYNA Users Conference, 2012.Search in Google Scholar

[11] LI S., LIU W.K., Meshfree Particle Methods, Springer, 2004.Search in Google Scholar

[12] VON NEUMANN J., RICHTMYER R.D., A Method for Numerical Calculation of Hydrodynamic Shocks, Journal of Applied Physics, 1950, 21, 232-237.10.1063/1.1699639Search in Google Scholar

[13] MONAGHAN J.J., Simulating Free Surface Flows With SPH, Journal of Computational Physics, 1994, 399-406.10.1006/jcph.1994.1034Search in Google Scholar

[14] THOMS M.A., CHITTY E.C., GILDEA M.L., T'KINDT C.M., Constitutive Soil Properties for Cuddeback Lake, California and Carson Sink, Nevada, Raport NASA/CR-2008-215345, NASA Langley Research Center's (LaRC), 2008.Search in Google Scholar

[15] JICHONG AN, Soil Behavior under Blast Loading, PhD thesis, University of Nebraska, Lincoln 2010.Search in Google Scholar

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