Elasticity/Torsion of thin walled closed sections

The Prandtl stress function ${\displaystyle \varphi }$ can be approximated as a linear function between ${\displaystyle {\varphi }_1}$ and ${\displaystyle 0}$ on the two adjacent boundaries.

The local shear stress is, therefore,

${\displaystyle {\sigma }_{3s}=\frac{{\varphi }_1}{t}}$

where ${\displaystyle s}$ is the parameterizing coordinate of the boundary curve of the cross-section and ${\displaystyle t}$ is the local wall thickness.

The value of ${\displaystyle {\varphi }_1}$ can determined using

${\displaystyle {\varphi }_1=\frac{2\mu \alpha A}{{{\displaystyle \oint }}_S\frac{dS}{t}}}$

where ${\displaystyle A}$ is the area enclosed by the mean line between the inner and outer boundary.

The torque is approximately

${\displaystyle T=2A{\varphi }_1}$

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