1. Reference problem#

1.1. Geometry#

_images/1000196E000025B90000136E431F549958610657.svg

Point coordinates (in \(m\) ) :

\(A\)

\(B\)

\(C\)

\(D\)

\(E\)

\(x\)

\(y\)

—0.5

—0.5

0.5

0.5

0.5

\(z\)

1.2. Material properties#

The elastic properties of the material under consideration are as follows:

Young’s module: \(E=1.{10}^{11}\mathrm{Pa}\)

Poisson’s ratio: \(\nu =0.25\)

1.3. Boundary conditions and loads#

Embedded side \(\mathrm{AD}\):

any \(P\) point such as \({x}_{P}=0\) (\(u=v=w=0\) \({\theta }_{x}={\theta }_{y}={\theta }_{z}=0\))

Charging: 2 load cases

  1. in \(B\) and \(C\): opposing forces parallel to the axis \(Z\)

\({F}_{{z}_{B}}=–1N\)

\({F}_{{z}_{C}}=+1N\)

  1. in \(B\) and \(C\): forces in the same direction parallel to the axis \(Z\)

\({F}_{{z}_{B}}=+1N\)

\({F}_{{z}_{C}}=+1N\)