Abstract

The stiffness of a flat specimen, made of graphite epoxy (T300/934), was measured during reverse fatigue loading. Laminates of basic layup, unidirectional cross-ply and angle-ply, as well as multidirectional (isotropic) layup, were tested. It was found that all the laminates exhibit rapid stiffness degradation on the last (third) fatigue stage. Except for the [0°] unidirectional laminate, the last stage starts at about 70 to 80% of the fatigue life, regardless of the load level and the final mode of failure (tension or compression). It is shown that for this material, stiffness degradation is a result of crack accumulation, mainly along the fibers, even for the fiber dominated laminates. This general phenomenon can serve to predict usable safe life of laminates under fatigue loading.

References

1.
Jamison
,
R. D.
,
Schulte
,
K.
,
Reifsnider
,
K. L.
, and
Stinchomb
,
W. W.
, “
Characterization and Analysis of Damage Mechanisms in Tension-Tension Fatigue of Graphite/Epoxy Laminates
,”
Effects of Defects in Composite Materials
, STP 836,
1984
,
American Society for Testing and Materials
,
Philadelphia
, pp.
21
-
55
.
2.
Johnson
,
W. S.
, “
Modeling Stiffness Loss in Boron/Aluminum Laminates Below the Fatigue Limit
,”
Long-Term Behavior of Composites
, STP 813,
American Society for Testing and Materials
,
Philadelphia
,
1983
, pp.
160
-
176
.
3.
Picasso
,
B.
,
Priolo
,
P.
,
Sitzia
,
C.
, and
Diana
,
P.
, “
Stiffness Reduction During Fatigue in a Graphite/Thermoplastic Composite
,”
Proceeding of the First Technical Conference
,
American Society for Composite
, 7–9 Oct. 1986,
Dayton, OH
, pp.
36
-
41
.
4.
Highsmith
,
A. L.
and
Reifsnider
,
K. L.
, “
Internal Load Distribution Effects During Fatigue Loading of Composite Laminates
,”
Composite Materials: Fatigue and Fracture
, STP 907,
American Society for Testing and Materials
,
Philadelphia
,
1986
, pp.
233
-
251
.
5.
Hashin
,
Z.
, “
Analysis of Orthogonally Cracked Laminates Under Tension
,”
Journal of Applied Mechanics
 0021-8936, Vol.
54
,
12
1987
, pp.
872
-
879
.
6.
Lifshitz
,
J. M.
and
Rotem
,
A.
, “
Longitudinal Tensile Failure of Unidirectional Fibrous Composites
,”
Journal of Materials Science
 0022-2461, No.
7
,
1972
, pp.
861
-
869
.
7.
Rotem
,
A.
, “
The Discrimination of Micro-Fracture Mode of Fibrous Composite Materials by Acoustic Emission Technique
,”
Fibre Science and Technology
 0015-0568, Vol.
10
, No.
2
,
04
1977
, pp.
101
-
121
.
8.
Adams
,
D. F.
, “
Analysis of the Compression Fatigue Properties of a Graphite/Epoxy Composite
,”
Advances in Composite Materials
, ICCM3,
A. R.
Bunsell
, Ed.,
Pergamon Press
,
1980
, pp.
81
-
94
.
9.
Little
,
R. E.
, “
Review of Statistical Analyses of Fatigue Life Data Using One Sided Lower Statistical Tolerance Limits
,”
Statistical Analysis of Fatigue Data
, STP 744,
American Society for Testing and Materials
,
Philadelphia
,
1981
, pp.
3
-
23
.
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