Interface contribution to the SiC-titanium and SiC-aluminium tensile strength prediction |
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Authors: | L Molliex J -P Favre A Vassel M Rabinovitch |
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Affiliation: | (1) Materials Science Department, ONERA, F-92320 Châtillon, France;(2) Present address: SNECMA, Corbeil-Evry, France |
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Abstract: | Fragmentation tests of single SiC filaments embedded in an aluminium (1050 and 5083 alloys) or a titanium (Ti-6Al-4V) matrix have been analysed in an effort to obtain the interface contribution in terms that could be incorporated into a tensile fracture model for unidirectional composites. Depending on the matrix, two regimes of interfacial stress transfer can be distinguished within the whole range of tested temperatures. For the SCS2/5083 system, plastic deformation of the alloy limits the stress transfer, and the interface contribution thus finds its expression in the shear stress of the matrix. for the SCS6/Ti-6Al-4V system, friction is the leading process and the interface contribution strongly depends on the stress state around the fibre. Assuming a temperature dependent compressive radial stress up to 925C, an effective transfer shear stress may be easily calculated for unidirectional SCS6/Ti-6Al-4V composites. |
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