4.7 Article

Simultaneous enhancements of strength, ductility, and toughness in a TiB reinforced titanium matrix composite

期刊

ACTA MATERIALIA
卷 254, 期 -, 页码 -

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PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.actamat.2023.118995

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Metal matrix composites; Mechanical properties; Strain hardening; Crack propagation; Fracture toughness

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In titanium matrix composites (TMCs), the addition of ceramic reinforcements enhances strength and specific stiffness but lowers ductility and fracture toughness due to the location of the reinforcement particles at the grain boundaries. This study demonstrates that simultaneously enhancing strength, ductility, and fracture initiation toughness (KQ) is possible if the particles are micron sized and predominantly present within the grains. The microstructural design of TMCs, especially the location of reinforcements with respect to grain boundaries, plays a crucial role in determining the overall mechanical performance.
In titanium matrix composites (TMCs), the enhancement in strength and specific stiffness with the addition of ceramic reinforcements often occurs with lowered ductility and fracture toughness. The latter is primarily due to the location of the reinforcement particles at the grain boundaries (GBs). In the current work, it is illustrated that it is possible to enhance the strength, ductility, and fracture initiation toughness (KQ) simultaneously if the particles are micron sized and predominantly present within the grains. For this purpose, TMCs (in which the majority of titanium monoboride (TiB) particles present intra-granularly) are synthesized using the powder metallurgy technique, and their microstructures and the uniaxial tensile properties, mode I fracture toughness, and fatigue crack growth behavior were evaluated. Interrupted uniaxial tensile tests reveal that the intragranular TiB particles enhance the strain hardening rate, by resisting the planar slip, which is otherwise dominant in the Ti matrix; the particles present at the GBs fracture prematurely and compromise the ductility and the toughness of the material. Such significant differences in the roles played by the inter-and intra-granular TiBs in determining the overall mechanical performance of the TMCs highlight the importance of microstructural design of them, especially on the location of reinforcements with respect to GBs.

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