5. C modeling#

5.1. Characteristics of modeling#

The behavior is MONOCRISTAL, in small deformations (DEFORMATION =” PETIT “)

5.2. Tested sizes and results#

5.2.1. Tested values#

Imposed deformation of 0.02, non-regression test.

Variable	Instants \((s)\)	Reference	Tolerance
\({E}_{\mathrm{zz}}\) EPSG_ELGA	0.02	0.02023	0.001
\({\sigma }_{\mathrm{zz}}\) (\(\mathrm{Mpa}\)) SIEF_ELGA	0.02	114.125	0.001
\({\rho }_{1}\) VARI_ELGA/V7)	0.02	9.8085E-07	0.001
\({\gamma }_{1}\) VARI_ELGA/V8)	0.02	0.0385	0.001
\({\rho }_{9}\) VARI_ELGA/V31)	0.02	1.0741E-07	0.001
\({\gamma }_{9}\) VARI_ELGA/V32)	0.02	1.04944E-03	0.001

Imposed deformation of 0.2, non-regression test.

Variable	Instants \((s)\)	Reference	Tolerance
\({E}_{\mathrm{zz}}\) EPSG_ELGA	0.2	0.22444	0.001
\({\sigma }_{\mathrm{zz}}\) (\(\mathrm{Mpa}\)) SIEF_ELGA	0.2	230,7133	0.001
\({\rho }_{1}\) VARI_ELGA/V7)	0.2	1.49E-05	0.001
\({\gamma }_{1}\) VARI_ELGA/V8)	0.2	0.3567	0.001
\({\rho }_{9}\) VARI_ELGA/V31)	0.2	6.30676E-06	0.001
\({\gamma }_{9}\) VARI_ELGA/V32)	0.2	0.05493	0.001
\({\rho }_{12}\) VARI_ELGA/V40)	0.2	6.45160E-08 \(\text{}={\rho }_{0}\)	0.001
\({\gamma }_{12}\) VARI_ELGA/V41)	0.2	0	0.001

This modeling also includes two additional calculations:

the first with an interaction matrix provided in a table:

the second one also uses 12 sliding systems given in a table

the values provided for the interaction matrix and the sliding systems are identical to the values of the interaction matrix and the systems of the chosen behavior (cf. [R5.03.11) It is therefore verified that the results are the same.