The state-of-the-art in the production of composite line insulators is that the end fittings are crimped onto the
fibre reinforced plastic (FRP) rod with a hydraulic press. Decisive for the quality of the crimping is to apply the
optimum crimping pressure.
The paper deals with the influence of the properties of the involved materials, in particular the influence of the
properties of the metallic end fitting on the crimping process. The solution requires simulating the crimping
process by using finite element analysis (FEA). For the calculation of the mechanical stresses, a model of the
jaws, the end fitting and the rod was established. The material of the rod is modelled as orthotropic as the fibres
are unidirectional. The steel of the end fitting was modelled multi-linear to reproduce its stress-elongationbehaviour.
Based on the mechanical properties of the FRP rod and the metallic end fitting, the results of the
simulation fit well to the real stresses in crimped end fittings. In conclusion, knowing the exact material parameters,
it is possible to calculate the proper crimping stress for a given parameter set using a FEA.
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The state-of-the-art in the production of composite line insulators is that the end fittings are crimped onto the
fibre reinforced plastic (FRP) rod with a hydraulic press. Decisive for the quality of the crimping is to apply the
optimum crimping pressure.
The paper deals with the influence of the properties of the involved materials, in particular the influence of the
properties of the metallic end fitting on the crimping process. The solution requires simulating the crimping
process by us...
»