Effect of Filament-Matrix Interdiffusion on the Fatigue Resistance of Boron-Aluminum Composites.
Abstract
The effects of diffusion across filament-matrix interfaces and the role of weak interfacial bonds on the axial fatigue resistance of boron-6061 aluminum composites were determined. Interfacial microstructures and composite fatigue resistance were compared with those previously determined for current, state-of-the-art boron-6061 aluminum composites. It was concluded that (a) the fracture behavior of the SiC coating on coated boron-filaments preferentially degrades the low-cycle fatigue resistance of composites, (b) the fatigue resistance of current, state-of-the-art boron-6061 aluminum composites can be improved substantially, (c) weak interfacial bonds extend the fatigue life of boron-6061 aluminum composites, and (d) increased diffusion penetration across boron-6061 aluminum interfaces shortens composite fatigue life by a detectable but minimal amount. (Author)
Document Details
- Document Type
- Technical Report
- Publication Date
- Jun 06, 1973
- Accession Number
- AD0761658
Entities
People
- G. G. Shaw
- J. R. Hancock
Organizations
- MRIGlobal