Sg. Pantelakis et Gn. Haidemenopoulos, EFFECT OF NOVEL PAINT REMOVAL PROCESSES ON THE FATIGUE BEHAVIOR OF ALUMINUM-ALLOY-2024, Surface & coatings technology, 106(2-3), 1998, pp. 198-204
Conventional paint removal processes, based on application of chemical
s and abrasion, are becoming inadequate for modern aircraft structures
. In addition they are associated with severe environmental problems,
mainly due to the production of hazardous waste. Several alternative n
ovel techniques are being developed. However, the aspect of material p
roperty degradation due to the application of these new paint removal
techniques has not been addressed adequately. The application of laser
radiation (carbon dioxide and excimer), as well as plasma etching, ha
s recently been associated with significant ductility deterioration an
d fatigue life extension. Residual stress measurements, roughness meas
urements and fractographic analysis were employed in order to rational
ize the effect of these novel paint removal processes on the fatigue b
ehavior of aluminum alloy 2024. The observed enhancement of fatigue li
fe is attributed to the development of compressive residual stresses d
uring paint removal processing At low fatigue stresses, the magnitude
of the residual stress correlates with the relative enhancement in fat
igue life for the three processes investigated. The effect of surface
roughening towards decreasing fatigue life is surpassed by the effect
of residual stresses in extending fatigue life. Finally, the decrease
of toughness and associated damage tolerance ability which follows the
application of paint removal processes has been confirmed by fractogr
aphic measurements. (C) 1998 Elsevier Science S.A.