This paper deals with the analysis of fatigue damage to upper and lower fol
ding beams on the rear fuselage of a naval helicopter which may result from
flight and folding loads; an original FEM-based analytical approach is use
d and is found to be applicable both together with and as an alternative to
experimental tests.
The finite element model of the helicopter part is created by means of an A
BAQUS/Standard finite element programme combined with advanced submodelling
techniques, thus enabling assessment of structural stresses. Thanks to sub
modelling, it is possible to obtain more precise results with only a limite
d increase in the amount of time required for calculations.
The finite element model defines the stress values in points of the beams m
ost affected by flight and folding loads previously applied in experimental
tests. Linear damage summation (Miner's rule) and multiaxial stress criter
ion enable us to evaluate the fatigue damage to the beams under investigati
on. (C) 1999 Elsevier Science Ltd. All rights reserved.