Open Access
EPJ Web of Conferences
Volume 94, 2015
DYMAT 2015 - 11th International Conference on the Mechanical and Physical Behaviour of Materials under Dynamic Loading
Article Number 04038
Number of page(s) 6
Section Modeling and Numerical Simulation
Published online 07 September 2015
  1. Z. Tu, and Y. Lu, Mesoscale modelling of concrete for static and dynamic response analysis Part 1: model development and implementation. Structural Engineering and Mechanics, 37(2), 197–213 (2011) [CrossRef]
  2. Z.M. Wang, A.K.H. Kwan, and H.C. Chan, Mesoscopic study of concrete I: generation of random aggregate structure and finite element mesh. Computers & Structures, 70(5), 533–544 (1999) [CrossRef]
  3. Y. Lu, Z. Song and Z. Tu, Analysis of dynamic response of concrete using a mesoscale model incorporating 3D effects, International Journal of Protective Structures, 1(2), 197–218 (2010) [CrossRef]
  4. S. Häfner, et al., Mesoscale modeling of concrete: Geometry and numeric, Computers & structures, 84(7), 450–461 (2006) [CrossRef]
  5. Z. Song, and Y. Lu, An algorithm for generation of 3D mesostructure of concrete for finite element analysis, in 19th UK ACME Conference, Edinburgh, UK (2011)
  6. H. Si, A Quality Tetrahedral mesh generator and 3D Delaunay triangulator Version 1.5, User's Manual (2013)
  7. L.J. Malvar, J.E. Crawford and K.B. Morrill, K&C concrete material model release III - automated generation of material model input, Technical Report TR-99-24.3, Karagozian & Case (2000)
  8. Z. Song, and Y. Lu, Mesoscopic analysis of concrete under excessively high strain rate compression and implications on interpretation of test data, International Journal of Impact Engineering, 46, 41–55 (2012) [CrossRef]
  9. van Vliet, M.R. and J.G. van Mier, Experimental investigation of concrete fracture under uniaxial compression, Mechanics of Cohesive-frictional Materials, 1(1), 115–127 (1996) [CrossRef]
  10. F.V. Donze, S.-A. Magnier, L. Daudeville, C. Mariotti and L. Davenne. Numerical study of compressive behavior of concrete at high strain rates. J Eng Mech – ASCE, 125, 1154–63 (1999)
  11. Q.M. Li and H. Meng, About the dynamic strength enhancement of concrete-like materials in a split Hopkinson pressure bar test, International Journal of solids and structures, 40(2), 343–360 (2003) [CrossRef]