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| Contact Stress Analysis of a Mechanical Valve Rotator
12 February 2007
 Helical Technology Ltd. design mechanical valve rotators for use in engines to reduce wear, and to improve operating temperature distribution. As part of the design process, Wilde FEA was asked to assess the performance of a rotator assembly.
'The particular assembly that was evaluated is fitted into what we would consider to be a severe application. The study based on the FE analysis results demonstrated that there were no areas that are significantly highly stressed which in turn gives confidence with similar designs fitted to less demanding applications. The study that Wilde FEA performed for us gives us confidence to look for similar type of assistance in the future.'
Rotator Design/Application Manager, Helical Technology
The FE analysis was performed to predict detailed stresses and deflections of the assembly components, including the ball, ball ring and disc spring. The analysis involved resolving contact issues and providing a realistic load distribution under given loads.
The FE simulations, including geometry editing and meshing, were conducted using ANSYS v10. Exploiting cyclic symmetry conditions, a segment of the whole assembly was modelled to minimise the computational time. Constraint equations were specified to allow for the effect of the symmetry planes and assembly fixtures. The results were used to assess the assembly performance under defined loading conditions.
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