K. Liao et al., Long-term environmental fatigue of pultruded glass-fiber-reinforced composites under flexural loading, INT J FATIG, 21(5), 1999, pp. 485-495
Pultruded glass-fiber-reinforced vinyl ester composite coupons were subject
ed to four-point-bend fatigue in various environments to study long-term du
rability for infrastructure applications. Several groups of specimens were
aged in water or in salt solutions containing mass fractions of either 5% N
aCl or 10% NaCl for up to 6570 h. Both as-received and aged specimens were
then cyclically tested in air or while immersed in water or in salt solutio
n. For specimens cyclically loaded at or above 45% of the average flexural
strength of the dry coupons, no substantial difference in fatigue life was
observed among all the specimen groups. For samples cyclically loaded at 30
% of the dry flexural strength, however, all specimens tested in air surviv
ed beyond 10(7) cycles while all those tested in water environments did not
. It is found that long-term environmental fatigue behavior is not controll
ed by the quantity of water absorbed; rather, it is governed by a combinati
on of both load and fluid environment. No difference in fatigue life was fo
und for specimens aged in different fluid environments at room temperature
prior to fatigue testing. Relative to these samples, however, a significant
difference was seen for specimens aged in water at 75 degrees C for 2400 h
prior to cyclic test at load levels above 30% of the dry flexural strength
. When tested at 30% of the dry flexural strength the differences were with
in the experimental uncertainty. Microscopic examination of the fatigue spe
cimens revealed evidence of a degraded fiber/matrix interphase region in th
ose specimens where environmental exposure caused premature failure so this
is believed to be a controlling factor in the environmental performance of
the glass composite. (C) 1999 Elsevier Science Ltd. All rights reserved.