Electric cables design using Tea Pipe
Laburpena
At the present time, cable design is based on trial and error tests
and experimental data obtained from long-time experience of previous
models. Because of that, there can be found some limitations in
their design as well as time consuming tests with low reproducibility.
In this work is studied the nonlinear behavior of two electric cables
types, a single and a double twisted cable, under three di erent loading
conditions: traction, bending and torsion. Results from experimental
tests under same loading conditions were analyzed in order
to simulate similar force-deformation curves. Several material models
were applied to both cable types, nding the most accurate results
with a viscoplastic model based on Chaboche law with isotropic hardening.
Unknown material parameters required for each model were
established comparing simulated models with experimental results.
A parametric study was accomplished in order to determine which
geometric and material parameters had a greater in
uence on both
models. Double cable lay angle was also studied, having the more
in
uence in traction and bending tests. In this study, internal friction
and slipping conditions were neglected since the nal goal of this work
is oriented to de ne a homogeneous cable section.