4. B modeling#

4.1. Characteristics of modeling#

The characteristics are identical to the reference solution. The modeling is of type3D_ DIL, formulation DIL_INCO with a zero penalty coefficient.

4.2. Characteristics of the mesh#

Number of knots 9009

Number of TRIA6 768

Number of TETRA10 12288

Number of group of elements 6

4.3. Tested sizes and results#

The quantities tested relate to error standards \(\theta (\mathrm{\nabla }X)\) and \(\theta (\varepsilon )\) according to the relationships:

\(\theta (\mathrm{\nabla }\chi )\mathrm{=}\sqrt{{\mathrm{\int }}_{\mathit{boule}}(\mathrm{\nabla }{\chi }^{\mathit{analytique}}(X)\mathrm{-}\mathrm{\nabla }{\chi }^{\mathit{numérique}}(X))}\)

\(\theta (\varepsilon )\mathrm{=}\sqrt{{\mathrm{\int }}_{\mathit{boule}}({\varepsilon }^{\mathit{analytique}}(X)\mathrm{-}{\varepsilon }^{\mathit{numérique}}(X))}\)

The reference is here considered to be “NON_REGRESSION” as long as the test focuses on the \(\theta (\mathrm{\nabla }X)\) and \(\theta (\varepsilon )\) error standards and not on the \(\mathrm{\nabla }X\) and \(\varepsilon\) components.

Tested value	Instant	Reference	Criterion	Aster	Tolerance
\(\theta (\varepsilon )\)	1.0	“NON_REGRESSION”	“	RELATIF	0.004688	0.1%
\(\theta (\mathrm{\nabla }X)\)	1.0	“NON_REGRESSION”	“	RELATIF	0.06	0.1%