Statistical Strength Comparison of Metal Matrix and Polymeric Matrix Composites.
Abstract
The reliability of a composite structure depends on the materials strength variability. Unidirectional composites fail sequentially initiating from the very weakest fiber sites with matrix binder, provide local redundancy by transferring load to neighboring fibers until cumulation and clustering of these sites lead to severe stress concentration and ultimate structure failure. As a consequence, the variability of the metal matrix structure is traceable to the strength variability of the constituent fiber, the metal matrix coating process, and the composite wire consolidation process. This report focuses on the partitioning of the first two sources of variability, identification and modeling of the dominant parameters, together with experimental measurements on a current graphite-aluminum composite. The statistical strength of several graphite spools are measured by testing single filament specimens at the beginning and at the end of the spools, thereby characterizing the statistical paraments associated with the strength variability among the spools and within each spool. The graphite-aluminum wire, produced from a continuous liquid infiltration process are tested in tension. The metal matrix statistical strengths from different spools are compared with the respective statistical strength of the parent fiber. The results suggest that, given proper interpretation, single filament fiber strength is a sensitive parameter for quality assurance of metal matrix composites.
Document Details
- Document Type
- Technical Report
- Publication Date
- Apr 01, 1986
- Accession Number
- ADA168847
Entities
People
- Edward M. Wu
- Shun-chin Chou