Effect Processing on the Evolution of Interfaces Metal Matrix Composites

Abstract

The issues in this research focused on the understanding the chemical evolution (diffusional) process at the interface, developing a mechanistic model or an interface based on stress or energy failure criterion, and studying the effect of interface properties on the performance of the composites. The approach involved both experimental and computational components, a link between the evolution of chemistry and geometry of the reaction zone and the interfacial properties. Microstructural studies reveal that reaction growth is due to transformation of both coating and the matrix. Push-out tests conducted on heat treated specimens reveal that the effect of thermal exposure on interfacial properties is predominantly due to exposure temperature. Time of exposure is found to have only a secondary effect. The push out data was used indirectly to evaluate both strength and toughness properties of the interfaces. The local shear strength of Ti-6A14V/SCS-6 interfaces was found to be of the order og 450 Mpa, in comparison with much lower (120 Mpa) average shear strength reported elsewhere. Also a fracture toughness of 50 Mpa m 1/2 was found in this research . Also the fracture toughness values remain more or less constant for normal use temperatures in the range of 450 to 700 deg C.

Document Details

Document Type

Technical Report

Publication Date

May 01, 2000

Accession Number

ADA393690

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