Characterization of fatigue damage in a metal matrix composite (SCS-6/Ti-15-3) at elevated temperature. Ph.D. Thesis
Thesis/Dissertation
·
OSTI ID:147177
The fatigue characteristics of a unidirectional titanium based metal matrix composite (MMC) were investigated at elevated temperature (427 C). A hybrid strain controlled loading mode was used to subject the 0 deg and 90 deg laminas to fatigue. Along with the fatigue tests, microscopy and analytical modeling were also conducted. This combination of activities led to defining the initiation and progression of damage and deformation in the MMC. When loading was parallel to the fiber direction, the fatigue behavior was initially dominated by creep deformation of the matrix. Then, depending on the maximum strain, specimen failure was the result of either fiber fractures or matrix cracking. In contrast, when loading was perpendicular to the fiber direction, the fatigue response was first dominated by the initiation of fiber-matrix interface damage. then, if the maximum strain was above 0.35%, the dominant damage mechanism was matrix cracking. Below this strain level, the damage was a mixture of matrix microcracks and the progression of fiber-matrix interface damage. The analysis for this fiber orientation included unique methods to model the interface damage. This hybrid approach involving experiments, microscopy, and analytical modeling provided a better understanding of the fatigue behavior of the MMC.
- Research Organization:
- Air Force Inst. of Tech., Wright-Patterson AFB, OH (United States)
- OSTI ID:
- 147177
- Country of Publication:
- United States
- Language:
- English
Similar Records
Investigation of tension-compression fatigue behavior of a cross-ply metal matrix composite at room and elevated temperatures. Master's thesis
Thermomechanical and isothermal fatigue behavior of a (90)[sub 8] titanium matrix composite
Fatigue behavior of a cross-ply metal matrix composite at elevated temperature under the strain controlled mode
Technical Report
·
Tue Nov 30 23:00:00 EST 1993
·
OSTI ID:5438067
Thermomechanical and isothermal fatigue behavior of a (90)[sub 8] titanium matrix composite
Conference
·
Fri Oct 01 00:00:00 EDT 1993
·
OSTI ID:5303783
Fatigue behavior of a cross-ply metal matrix composite at elevated temperature under the strain controlled mode
Journal Article
·
Wed Oct 01 00:00:00 EDT 1997
· Journal of Engineering Materials and Technology
·
OSTI ID:543523