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      KCI등재 SCIE SCOPUS

      Modelling of concrete structures subjected to shock and blast loading: An overview and some recent studies

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      https://www.riss.kr/link?id=A104819073

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      다국어 초록 (Multilingual Abstract)

      The response of concrete structures subjected to shock and blast load involves a rapid transient phase, during which material breach may take place. Such an effect could play a crucial role in determining the residual state of the structure and the po...

      The response of concrete structures subjected to shock and blast load involves a rapid transient phase, during which material breach may take place. Such an effect could play a crucial role in determining the residual state of the structure and the possible dispersion of the fragments. Modelling of the transient phase response poses various challenges due to the complexities arising from the dynamic behaviour of the materials and the numerical difficulties associated with the evolving material discontinuity and large deformations. Typical modelling approaches include the traditional finite element method in conjunction with an element removal scheme, various meshfree methods such as the SPH, and the mesoscale model. This paper is intended to provide an overview of several alternative approaches and

      discuss their respective applicability. Representative concrete material models for high pressure and high rate applications are also commented. Several recent application studies are introduced to illustrate the

      pros and cons of different modelling options.

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      참고문헌 (Reference)

      1 Johnson, G.R., "“An improved constitutive model for brittle materials”, High-pressure Science and Technology" AIP Press 1994

      2 Autodyn, "Theory Manual, revision 4.2"

      3 Owen, D.R.J., "The modelling of multi-fracturing solids and particulate media" 60 (60): 317-339, 2004

      4 Eckardt, S., "Simulation of the fracture behaviour of concrete using continuum damage models at the mesoscale" Jyvaskyla 2004

      5 Johnson, G.R., "SPH for high velocity impact computations" 139 (139): 347-373, 1996

      6 Unosson, M., "Projectile penetration and perforation of high strength concrete: experimental results and macroscopic modelling" 32 : 1068-1085, 2006

      7 Sadouki, H., "On the analysis of the failure process in composite materials by numerical simulation" A104 : 9-20, 1998

      8 Xu, K., "Numerical simulation study of spallation in reinforced concrete plates subjected to blast loading" 84 (84): 431-438, 2006

      9 Lu, Y., "Numerical simulation of concrete fragmentation with a meso-scale approach" 2008

      10 Riedel, W., "Numerical analysis using a new macroscopic concrete model for hydrocodes" 315-322, 1999

      1 Johnson, G.R., "“An improved constitutive model for brittle materials”, High-pressure Science and Technology" AIP Press 1994

      2 Autodyn, "Theory Manual, revision 4.2"

      3 Owen, D.R.J., "The modelling of multi-fracturing solids and particulate media" 60 (60): 317-339, 2004

      4 Eckardt, S., "Simulation of the fracture behaviour of concrete using continuum damage models at the mesoscale" Jyvaskyla 2004

      5 Johnson, G.R., "SPH for high velocity impact computations" 139 (139): 347-373, 1996

      6 Unosson, M., "Projectile penetration and perforation of high strength concrete: experimental results and macroscopic modelling" 32 : 1068-1085, 2006

      7 Sadouki, H., "On the analysis of the failure process in composite materials by numerical simulation" A104 : 9-20, 1998

      8 Xu, K., "Numerical simulation study of spallation in reinforced concrete plates subjected to blast loading" 84 (84): 431-438, 2006

      9 Lu, Y., "Numerical simulation of concrete fragmentation with a meso-scale approach" 2008

      10 Riedel, W., "Numerical analysis using a new macroscopic concrete model for hydrocodes" 315-322, 1999

      11 Rabczuk, T., "Modelling dynamic failure of concrete with meshfree methods" 32 (32): 1878-1897, 2006

      12 Lu, Y., "Modeling of concrete for localized impact / explosion effects. in: NTU-DSTA Joint R&D Project on Integrated Explosion Modelling" NTU 2007

      13 Kwan, A.K.H., "Mesoscopic study of concrete II: nonlinear finite element analysis" 70 : 545-556, 1999

      14 Cusatis, G., "Mesolevel simulation of reinforced concrete structures under impact loadings" 63-70, 2006

      15 Li, S., "Meshfree Particle Methods" Springer Verlag 2004

      16 Johnson, G.R., "Linking of Lagrangian particle methods to standard finite element methods for high velocity impact computations" 150 : 265-274, 1994

      17 LS-DYNA, "Keyword User’s Manual, Version 971"

      18 Malvar, L.J., "K&C concrete material model Release III - Automated generation of material model input" 2000

      19 Fahrenthold, E.P., "Hybrid particle-element bond graphs for impact dynamics simulation" 122 : 306-313, 2000

      20 Brackbill, J.U., "FLIP: A method for adoptively zoned, particle-in-cell calculations in two dimensions" 65 : 314-343, 1986

      21 Tu, Z., "Evaluation of typical concrete material models used in hydrocodes for high dynamic response simulations" 36 : 132-146, 2009

      22 Attaway, S.W., "Coupling of smooth particle hydrodynamics with the finite element method" 150 : 199-205, 1994

      23 Johnson, G.R., "Conversion of 3D distorted elements into meshless particles during dynamic deformation" 28 : 947-966, 2003

      24 Cusatis, G., "Confinement-shear lattice CSL model for fracture propagation in concrete" 195 : 7154-7171, 2006

      25 Lu, Y., "Characterization of structural effects from above-ground explosion using coupled numerical simulation" 84 (84): 1729-1742, 2006

      26 Sulsky, D., "Axisymmetric form of the material point method with applications to upsetting and Taylor impact problems" 139 : 409-429, 1996

      27 Sulsky, D., "Application of a particle-in-cell method to solid mechanics" 87 : 136-252, 1995

      28 Luccioni, B.M., "Analysis of building collapse under blast loads" 26 : 63-71, 2004

      29 "ANSYS Academic Research, v. 11.0"

      30 Malvar, L.J., "A plasticity concrete material model for Dyna3D" 19 (19): 847-873, 1997

      31 Silling, S.A., "A meshfree method based on the peridynamic model of solid mechanics" 83 : 1526-1535, 2005

      32 Wang, Z., "A full coupled numerical analysis approach for buried structures subjected to subsurface blast" 83 (83): 339-356, 2004

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