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Book cover for Composite Materials: Testing and Design: Twelfth Volume
ASTM Selected Technical Papers
Composite Materials: Testing and Design: Twelfth VolumeAvailable to Purchase
By
RB Deo
RB Deo
1
Northrop Corporation
,
Hawthorne, CA 90250
;
symposium cochairman and coeditor
.
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CR Saff
CR Saff
2
McDouglas Douglas Corporation
,
St. Louis, MO 63165
;
symposium cochairman and coeditor
.
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ISBN-10:
0-8031-2404-X
ISBN:
978-0-8031-2404-2
No. of Pages:
429
DOI:
https://doi.org/10.1520/STP1274-EB
Publisher:
ASTM International
Publication date:
1996
eBook Chapter

Micromechanical Characterization of Nonlinear Behavior of Advanced Polymer Matrix Composites Available to Purchase

By
TS Gates
TS Gates
1
Research scientist
,
NASA Langley Research Center
,
Hampton, VA 23681
.
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,
J-L Chen
J-L Chen
2
Research associate and professor
, respectively,
School of Aeronautics and Astronautics, Purdue University
,
West Lafayette, IN 47907-1282
.
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,
CT Sun
CT Sun
2
Research associate and professor
, respectively,
School of Aeronautics and Astronautics, Purdue University
,
West Lafayette, IN 47907-1282
.
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Doi:
https://doi.org/10.1520/STP16551S
Page Count:
25
  • Published:
    1996

Due to the presence of curing stresses and oriented crystalline structures in the matrix of polymer matrix fiber composites, the in situ nonlinear properties of the matrix are expected to be rather different from those of the bulk resin. A plane-stress micromechanical model was developed to retrieve the in situ elastic-plastic properties of Narmco 5260 and Amoco 8320 matrices from measured elastic-plastic properties of IM7/5260 and IM7/8320 advanced composites. In the micromechanical model, the fiber was assumed to be orthotropically elastic and the matrix to be orthotropic in elastic and plastic properties. The results indicate that both in situ elastic and plastic properties of the matrices are orthotropic.

Keywords:
micromechanics, polymer matrix composites, temperature, plasticity, off-axis testing, composite materials, testing, design

References

1.
Sun
,
C. T.
 and
Chen
,
J. L.
, “
A Simple Flow Rule of Characterizing Nonlinear Behavior of Fiber Composites
,”
Journal of Composite Materials
, Vol.
23
, No.
10
,
1989
, pp. 1009–1020.
2.
Chen
,
J. L.
 and
Sun
,
C. T.
, “
A Plastic Potential Function Suitable for Anisotropic Fiber Composites
,”
Journal of Composite Materials
, Vol.
27
, No.
14
,
1993
, pp. 1379–1390.
3.
Gates
,
T. S.
 and
Sun
,
C. T.
, “
An Elastic/Viscoplastic Constitutive Model for Fiber Reinforced Thermoplastic Composites
,”
AIAA Journal
 0001-1452, Vol.
29
, No.
3
,
1991
, pp. 457–463.
4.
Sun
,
C. T.
 and
Chen
,
J. L.
, “
A Micromechanical Model for Plastic Behavior of Fibrous Composites
,”
Composites Science & Technology
, Vol.
40
, No.
2
,
1991
, pp. 115–129.
5.
Gates
,
T. S.
, “
Rate Dependent Stress-Strain Behavior of Advanced Polymer Matrix Composites
,” NASA Technical Memorandum 104070,
NASA Langley Research Center
,
Hampton, VA
,
04
1991
.
6.
Bahei-El-Din
,
Y. A.
 and
Dvorak
,
G. J.
, “
Plastic Deformation of a Laminated Plate with a Hole
,”
Journal of Applied Mechanics
, Vol.
47
,
1980
, pp. 827–832.
7.
Aboudi
,
J.
,
Mechanics of Composite Materials, A Unified Mechanical Approach
,
Elsevier
,
New York
,
1991
.
8.
Gates
,
T. S.
, “
Experimental Characterization of Nonlinear, Rate Dependent Behavior in Advanced Polymer Matrix Composites
,”
Experimental Mechanics
, Vol.
32
, No.
1
,
03
1992
, pp. 68–73.
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