2. Benchmark solution#

2.1. Calculation method#

The analytical solution for this hydro-mechanical load has not been developed. Also, the reference solution is obtained numerically using the Scilab 2.7.2 software for BETON_UMLV or python for BETON_BURGER. Each deformation component is calculated separately:

  • endogenous shrinkage deformities are determined from the relationship:

  • _images/Object_19.svg

where

_images/Object_20.svg

refers to the degree of hydration of the material

  • the desiccation shrinkage deformations are determined from the relationship:

  • _images/Object_21.svg

where

_images/Object_22.svg

refers to the water content of the material

the natural creep deformations are calculated numerically using a discretization identical to that implemented in the*Code_Aster for BETON_UMLV and an layout according to an explicit diagram for BETON_BURGER. The time discretization is then necessarily finer for the explicit schema.

2.2. Reference quantities and results#

The test is homogeneous. The deformation is tested at any node.

2.3. Uncertainty about the solution#

Numerical result obtained with Scilab 2.7.2 or python (SSNV174B .44)

2.4. Bibliographical references#

  1. THE PAPE Y.: UMLV behavioral relationship for the clean creep of concrete, Code_Aster Reference Documentation, [R7.01.06] 16 p (2002).

  2. FOUCAULT A.: BETON_BURGER behavioral relationship for the clean creep of concrete, Code-Aster Reference Documentation, [R7.01.35], 2011.