6. Bibliography#

  1. LEMAITRE J., CHABOCHE J.L.: « Mechanics of solid materials », Ed. Dunod (1985)

    1. Koechlin, S. Potapov. « A global constitutive model for reinforced concrete plates. » ASCE J. Eng. Mech. 2006.

    1. Koechlin, S. Moulin. « Global behavior model of reinforced concrete plates under dynamic flexural loading: improved law GLRC: modeling of cracking due to damage ». Note HT-62/02/021/A, 11/2002.

    1. VOLDOIRE. « Homogenization of heterogeneous structures ». Note EDF/DER/MMN HI-74/93/055, 27/10/1993.

  5. S.Moulin. « Modeling of reinforced concrete structures under seismic loading ». Note HT-62/04/025/A, 12/2004.

  6. S.Moulin. F. VOLDOIRE « Study of a reinforced concrete beam under flexural load ». Note HT-62/05/013/A, 9/2006.

  7. J-J. MARIGO. « Numerical study of damage ». EDF, Bulletin of Studies and Research, Series C, Series C, No. 2, pp.27-48, 1982.

  8. [V6.05.106] SSNS106 — Damaging a flat plate under various stresses with the law of behavior GLRC_DM.

  9. [R3.07.03] — Plate elements DKT, DST, DKQ,, DSQ, and Q4g.

  10. [R7.01.04] — Behaviour law ENDO_ISOT_BETON.

  11. [A4.01.04] — File for validating the seismic calculation.

  12. [U4.42.06] — Operator DEFI_GLRC.