The aim of this paper was to investigate the tensile and flexural properties of hybrid laminates made with titanium sheets and high modulus carbon fiber composites. Grade II titanium was used, which exhibits great high-temperature performance and creep resistance, low weight, and high strength. An inorganic fireproof matrix, known as geopolymer, was used to fabricate the high modulus carbon fiber composites. Previous studies have shown that these composites are strong, durable, lightweight, and can exhibit excellent performance up to 400°C. In the present study, a number of specimens were tested in uniaxial tension and four-point bending after exposure at elevated temperatures. The results indicate that the addition of carbon fibers can reduce the weight and increase the stiffness of the pure titanium. Moreover, the hybrid laminates are stronger and stiffer than the sum of the individual strengths and stiffnesses of the parent materials. An important finding is that the interlaminar bond is strong, and as a result no delamination failures were observed.

1.
Askeland
,
D. R.
, and
Phule
,
P. P.
, 2003,
The Science and Engineering of Materials
,
Thompson
,
Toronto, Canada
, pp.
610
617
.
2.
Hussein
,
R. M.
, 1986,
Composite Panels/Plates
,
Technomic
,
Lancaster, PA
.
3.
Rhymer
,
D. W.
, and
Johnson
,
W. S.
, 2002, “
Fatigue Damage Mechanisms in Advanced Hybrid Titanium Composite Laminates
,”
Int. J. Fatigue
0142-1123,
24
(
9
), pp.
995
1001
.
4.
Fink
,
A.
,
Kolesnikov
,
B.
, and
Wilmes
,
H.
, 2003, “
Hybrid Titanium Composite Material Improving Composite Structure Coupling
,”
20th AAAF Colloquium
,
Materials for Aerospace Applications, Association Aéronatique de France (AAAF)
,
Paris
, S. 1-12.
5.
Ramulu
,
M.
,
Stickler
,
P. B.
,
McDevitt
,
N. S.
,
Datar
,
I. P.
,
Kim
,
D.
, and
Jenkins
,
M. G.
, 2004, “
Influence of Processing Methods on the Tensile and Flexure Properties of High Temperature Composites
,”
Compos. Sci. Technol.
0266-3538,
64
(
12
), pp.
1763
1772
.
6.
Veazie
,
D. R.
,
Badir
,
A. M.
, and
Grover
,
R. O.
, Jr.
, 1998, “
Titanium Ply Effects on the Behavior of a Hybrid Thermoplastic Composite Laminate
,”
J. Thermoplast. Compos. Mater.
,
11
(
5
), pp.
443
454
.
7.
Miller
,
J. L.
,
Progar
,
D. J.
,
Johnson
,
W. S.
, and
Clair
,
T. S. L. S.
, 1995,
Preliminary Evaluation of Hybrid Titanium Composite Laminates
,
Taylor & Francis
,
London
, pp.
223
240
.
8.
Steven Johnson
,
W.
,
Li
,
E.
, and
Miller
,
J. L.
, 1996, “
High Temperature Hybrid Titanium Composite Laminates: An Early Analytical Assessment
,”
Appl. Compos. Mater.
,
3
(
6
), pp.
379
390
. 0929-189X
9.
Rhymer
,
D. W.
, 1999, “
Fatigue Damage Mechanisms of Advanced Hybrid Titanium Composite Laminates
,” MSc thesis, Georgia Institute of Technology, Atlanta, GA.
10.
Kolesnikov
,
B.
,
Herbeck
,
L.
, and
Fink
,
A.
, 2008, “
CFRP/Titanium Hybrid Material for Improving Composite Bolted Joints
,”
Compos. Struct.
0263-8223,
83
(
4
), pp.
363
380
.
11.
Davidovits
,
J.
, 1989, “
Geopolymers and Geopolymeric Materials
,”
J. Therm. Anal.
,
35
(
2
), pp.
429
441
. 0022-5215
12.
Davidovits
,
J.
, 1991, “
Geopolymers-Inorganic Polymeric New Materials
,”
J. Therm. Anal.
0368-4466,
37
(
8
), pp.
1633
1656
.
13.
Lyon
,
R. E.
,
Balaguru
,
P. N.
,
Foden
,
A.
,
Sorathia
,
U.
,
Davidovits
,
J.
, and
Davidovics
,
M.
, 1997, “
Fire-Resistant Aluminosilicate Composites
,”
Fire Mater.
0308-0501,
21
(
2
), pp.
67
73
.
14.
Foden
,
A. J.
,
Lyon
,
R. E.
, and
Balaguru
,
P. N.
, 1996, “
High Temperature Inorganic Resins for Use in Fiber Reinforced Composites
,”
The First International Conference on Composites in Infrastructures (ICCI)
, Tucson, AZ, pp.
581
582
.
15.
Foden
,
A. J.
, 1999, “
Mechanical Properties and Material Characterization of Polysialate Structural Composites
,” Ph.D. thesis, Rutgers, the State University of New Jersey, New Brunswick, NJ.
16.
Foden
,
A. J.
,
Balaguru
,
P.
, and
Lyon
,
R. E.
, 1996, “
Mechanical Properties and Fire Response of Geopolymer Structural Composites
,”
International SAMPE Symposium and Exhibition (Proceedings)
, Anaheim, CA, pp.
748
758
.
17.
Giancaspro
,
J.
,
Balaguru
,
P.
, and
Lyon
,
R.
, 2001, “
Hybrid Composites With Glass/Carbon Fibers and Inorganic/Organic Matrices
,”
46th International SAMPE Symposium and Exhibition: Materials and Processes Odyssey
, Long Beach, CA, pp.
2582
2592
.
18.
Giancaspro
,
J.
,
Balaguru
,
P.
, and
Lyon
,
R.
, 2004, “
Fire Protection of Flammable Materials Utilizing Geopolymer
,”
SAMPE J.
0091-1062,
40
(
5
), pp.
42
49
.
19.
Giancaspro
,
J.
,
Lyon
,
R.
, and
Balaguru
,
P.
, 2002, “
Flexural Behavior of Balsa Wood Cores Reinforced With Inorganic Carbon Composite
,”
International SAMPE Symposium and Exhibition (Proceedings)
, Long Beach, CA, pp.
530
541
.
20.
Giancaspro
,
J. W.
,
Balaguru
,
P. N.
, and
Lyon
,
R. E.
, 2006, “
Use of Inorganic Polymer to Improve the Fire Response of Balsa Sandwich Structures
,”
J. Mater. Civ. Eng.
0899-1561,
18
(
3
), pp.
390
397
.
21.
Hammell
,
J. A.
, 2000, “
The Influence of Matrix Composition and Reinforcement Type on the Properties of Polysialate Composites
,” Ph.D. thesis, Rutgers, the State University of New Jersey, New Brunswick, NJ..
22.
Hammell
,
J. A.
,
Balaguru
,
P. N.
, and
Lyon
,
R. E.
, 2000, “
Tensile Strain Capacity of Geopolymers by Cantilever Beam Method
,”
International SAMPE Symposium and Exhibition (Proceedings)
, Vol.
45
, pp.
1125
1136
.
23.
Hammell
,
J. A.
,
Balaguru
,
P. N.
, and
Lyon
,
R. E.
, 2000, “
Strength Retention of Fire Resistant Aluminosilicate-Carbon Composites Under Wet-Dry Conditions
,”
Composites, Part B
1359-8368,
31
(
2
), pp.
107
111
.
24.
Papakonstantinou
,
C.
, and
Tsang
,
L.
, 2005, “
An Early Investigation of High Modulus Carbon Fiber/Titanium Laminates
,”
International SAMPE Symposium and Exhibition (Proceedings)
, Long Beach, CA, pp.
1793
1804
.
25.
Papakonstantinou
,
C. G.
,
Balaguru
,
P.
, and
Lyon
,
R. E.
, 2001, “
Comparative Study of High Temperature Composites
,”
Composites, Part B
1359-8368,
32
(
8
), pp.
637
649
.
26.
Papakonstantinou
,
C. G.
, and
Balaguru
,
P. N.
, 2007, “
Fatigue Behavior of High Temperature Inorganic Matrix Composites
,”
J. Mater. Civ. Eng.
0899-1561,
19
(
4
), pp.
321
328
.
27.
Papakonstantinou
,
C. G.
, and
Balaguru
,
P. N.
, 2007, “
Geopolymer Protective Coatings for Concrete
,”
International SAMPE Symposium and Exhibition
, Baltimore, MD, p.
13
.
28.
Papakonstantinou
,
C. G.
,
Giancaspro
,
J. W.
, and
Balaguru
,
P. N.
, 2008, “
Fire Response and Mechanical Behavior of Polysialate Syntactic Foams
,”
Composites, Part A
1359-835X,
39
(
1
), pp.
75
84
.
29.
Rosato
,
D. V.
, and
Rosato
,
D. V.
, 2005,
Reinforced Plastics Handbook
,
Elsevier
,
New York
, pp.
1
1082
.
30.
Campbell
,
F. C.
, 2006,
Manufacturing Technology for Aerospace Structural Materials
,
Elsevier
,
New York
, pp.
1
616
.
31.
Rosato
,
D. V.
,
Rosato
,
D. V.
, and
Rosato
,
M. V.
, 2004,
Plastic Product Material and Process Selection Handbook
,
Elsevier
,
New York
, pp.
1
618
.
32.
Evans
,
D. A.
, and
Lashley
,
R. B.
, 1990, “
Better Vacuum Bagging; Applying Science to an Old Art
,”
National SAMPE Technical Conference, Advanced Materials: Looking Ahead to the 21st Century
, Boston, MA, pp.
747
758
.
33.
Campbell
,
F. C.
, 2003,
Manufacturing Processes for Advanced Composites
,
Elsevier
,
New York
, pp.
1
532
.
34.
Foden
,
A. J.
,
Balaguru
,
P.
, and
Lyon
,
R.
, 1996, “
Mechanical Properties of Carbon Composites Made Using An Inorganic Polymer
,”
ANTEC‘96
,
Society of Plastics Engineers
,
Indianapolis, IN
, pp.
3013
3017
.
35.
Hammell
,
J.
,
Balaguru
,
P.
, and
Lyon
,
R.
, 1998, “
Influence of Reinforcement Types on the Flexural Properties of Geopolymer Composites
,”
International SAMPE Symposium and Exhibition (Proceedings)
, Anaheim, CA, pp.
1600
1608
.
36.
2006, ASTM Standard D3039/D3039M-00, Standard Test Method for Tensile Properties of Polymer Matrix Composite Materials, ASTM International, West Conshohocken, PA.
37.
2006, ASTM Standards C1341–06, Standard Test Method for Flexural Properties of Continuous Fiber-Reinforced Advanced Ceramic Composites, ASTM International, West Conshohocken, PA.
38.
Kilin
,
V. S.
,
Cherednik
,
E. M.
,
Shcheglova
,
L. N.
,
Ostrovskii
,
V. S.
, and
Dergunova
,
V. S.
, 1975, “
Oxidation Resistance of Carbon Fibers With Protective Coatings
,”
Sov. Powder Metall. Met. Ceram
0038-5735,
14
(
2
), pp.
122
124
.
39.
Bahl
,
O. P.
, and
Dhami
,
T. L.
, 1987, “
Oxidation Resistance of Carbon Fibres
,”
High Temp. High Press.
,
19
(
2
), pp.
211
214
. 0018-1544
40.
Tang
,
L. G.
, 1995, “
Kinetics and Models of Carbon Fiber Oxidation at High Temperature Atmosphere in Air
,” Chemical Journal of Chinese Universities/
Gaodeng Xuexiao Huaxue Xuebao
0251-0790,
16
(
11
), pp.
1825
1833
.
41.
Tang
,
L. G.
, 1996, “
Influence of Boron Treatment on Oxidation of Carbon Fiber in Air
,”
J. Appl. Polym. Sci.
,
59
(
6
), pp.
915
921
. 0021-8995
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