Type of Document Dissertation Author Lavoie, J. Andre URN etd-4131162939721181 Title Scaling Effects on Damage Development, Strength, and Stress-Rupture Life on Laminated Composites in Tension Degree PhD Department Engineering Science and Mechanics Advisory Committee
Advisor Name Title John Morton Committee Chair William A. Curtin Committee Co-Chair Don H. Morris none Karen E. Jackson none Kenneth L. Reifsnider none Mark S. Cramer none Keywords
- strength scaling
- size effects
- microcracking
- first-ply failure
- delamination
- composite material
- weibull statistics
- tension testing
- flexural testing
- carbon/epoxy
- glass/epoxy
- creep
- stress0cupture
- creep-rupture
- stress relaxation
- stress-corrosion cracking
- durabilty
- life
Date of Defense 1997-04-04 Availability unrestricted Abstract The damage development and strength of
ply-level scaled carbon/epoxy composite
laminates having stacking sequence of
[+Tn/-Tn/902n]s where constraint ply angle, T,
was 0, 15, 30, 45, 60, and 75 degrees, and
size was scaled as n=1,2,3, and 4, is reported
in Part I. X-radiography was used to monitor
damage developments. First-ply failure stress,
and tensile strength were recorded. First-ply
failure of the midplane 90 deg. plies depended
on the stiffness of constraint plies, and size. All
24 cases were predicted using Zhang’s
shear-lag model and data generated from
cross-ply tests. Laminate strength was
controlled by the initiation of a
triangular-shaped local delamination of the
surface angle plies. This delamination was
predicted using O’Brien’s strain energy release
rate model for delamination of surface angle
plies. For each ply angle, the smallest laminate
was used to predict delamination (and
strength) of the other sizes.
The in-situ tensile strength of the 0 deg. plies
within different cross-ply, and quasi-isotropic
laminates of varying size and stacking
sequence is reported in Part II. No size effect
was observed in the strength of 0 deg. plies for
those lay-ups having failure confined to the
gauge section. Laminates exhibiting a
size-strength relationship, had grip region
failures for the larger sizes. A statistically
significant set of 3-point bend tests of
unidirectional beams were used to provide
parameters for a Weibull model, to re-examine
relationship between ultimate strength of 0
deg. plies and specimen volume. The
maximum stress in the 0 deg. plies in bending,
and the tensile strength of the 0 deg. plies
(from valid tests only) was the same. Weibull
theory predicted loss of strength which was
not observed in the experiments.
An effort to model the durability and life of
quasi-isotropic E-glass/913 epoxy composite
laminates under steady load and in an acidic
environment is reported in Part III.
Stress-rupture tests of unidirectional coupons
immersed in a weak hydrochloric acid solution
was conducted to determine their stress-life
response. Creep tests were conducted on
unidirectional coupons parallel and transverse
to the fibers, and on ±45 deg. layups to
characterize the lamina stress- and
time-dependent compliances. These data were
used in a composite stress-rupture life model,
based on the critical element modeling
philosophy of Reifsnider, to predict the life of
two ply-level thickness-scaled quasi-isotropic
laminates.
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28.8 Modem 56K Modem ISDN (64 Kb) ISDN (128 Kb) Higher-speed Access etd-part1.pdf 8.89 Mb 00:41:08 00:21:09 00:18:30 00:09:15 00:00:47 etd-part2.pdf 1.82 Mb 00:08:24 00:04:19 00:03:47 00:01:53 00:00:09 etd-part3.pdf 2.75 Mb 00:12:44 00:06:32 00:05:43 00:02:51 00:00:14 etd_full.pdf 13.46 Mb 01:02:19 00:32:02 00:28:02 00:14:01 00:01:11
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