Fibre3DOS

Last updated 1 year ago

Fibre3DOS

3D OS Fibre Section

References

Syntax

section Fibre3DOS (1) [(2)...]
# (1) int, unique section tag
# [(2)...] int, associated section tags

Remarks

The associated sections need to be OS sections.

The section takes twelve quantities from the parent element, namely,

\begin{bmatrix} u'&v'&w'&v''&w''&\phi&\phi'&\phi''&\theta_{z,i}&\theta_{z,j}&\theta_{y,i}&\theta_{y,j} \end{bmatrix}

!!! Note All quantities ( $u$ , $v$ , $w$ and $\phi$ ) are measured about the reference axis ( $y=z=0$ ). Any offset/shift should be directly defined via section composition.

Then strain components are determined by the following equations:

\begin{bmatrix} \varepsilon_{11}\\ \gamma_{12}\\ \gamma_{13} \end{bmatrix}=\begin{bmatrix} u'-yv''-zw''+\omega\phi''+\left(zv''-yw''\right)\phi+\dfrac{1}{2}(y^2+z^2)\left(\phi'\right) ^2+\dfrac{1}{60}\mathbf{\theta}^\mathrm{T}\mathbf{X}\mathbf{\theta}\\ \left(\dfrac{\partial\omega}{\partial{}y}-z\right)\phi'\\ \left(\dfrac{\partial\omega}{\partial{}z}+y\right)\phi' \end{bmatrix}

The normal strain is defined according to Alemdar's thesis (Eq. 7.63). The shear strains are defined according to Pilkey's book (Eq. 5.3).

Example

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