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Modeling fatigue crack growth in cross ply titanium matrix compositesIn this study, the fatigue crack growth behavior of fiber bridging matrix cracks in cross-ply SCS-6/Ti-15-3 and SCS-6/Timetal-21S laminates containing center holes was investigated. Experimental observations revealed that matrix cracking was far more extensive and wide spread in the SCS-6/Ti-15-3 laminates compared to that in the SCS-6/Timetal-21S laminates. In addition, the fatigue life of the SCS-6/Ti-15-3 laminates was significantly longer than that of the SCS-6/Timetal-21S laminates. The matrix cracking observed in both material systems was analyzed using a fiber bridging (FB) model which was formulated using the boundary correction factors and weight functions for center hole specimen configurations. A frictional shear stress is assumed in the FB model and was used as a curve fitting parameter to model matrix crack growth data. The higher frictional shear stresses calculated in the SCS-6/Timetal-21S laminates resulted in lower stress intensity factors in the matrix and higher axial stresses in the fibers compared to those in the SCS-6/Ti-15-3 laminates at the same applied stress levels.
Document ID
19930017873
Acquisition Source
Legacy CDMS
Document Type
Conference Paper
Authors
Bakuckas, J. G., Jr.
(NASA Langley Research Center Hampton, VA, United States)
Johnson, W. S.
(NASA Langley Research Center Hampton, VA, United States)
Date Acquired
September 6, 2013
Publication Date
May 1, 1993
Subject Category
Composite Materials
Report/Patent Number
NAS 1.15:108988
NASA-TM-108988
Report Number: NAS 1.15:108988
Report Number: NASA-TM-108988
Meeting Information
Meeting: ASTM Fifth Symposium on Composite Materials: Fatigue and Fracture
Location: Atlanta, GA
Country: United States
Start Date: May 4, 1993
End Date: May 6, 1993
Accession Number
93N27062
Funding Number(s)
PROJECT: RTOP 763-23-45-85
Distribution Limits
Public
Copyright
Work of the US Gov. Public Use Permitted.
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