Download This PaperEnhancing Mechanical Performance of Ti-Mo-Si Titanium Matrix Composites Via Al-Doped Mosi2 Addition
68 Pages Posted: 6 Sep 2023
Abstract
Ti-Mo-Si titanium matrix composites (TMCs) with high Si content are potential for high-temperature applications but show limited mechanical properties at room temperature due to the severe Ti-Si interfacial reaction. In this work, we propose a novel reinforcement alloying strategy to improve the interface bonding between matrix and reinforcement and enhance the room temperature mechanical properties of the Ti-Mo-Si TMCs. Specifically, the MoSi2 compound was mechanical alloyed with minor Al, then the effects of Al-doped MoSi2 addition on the microstructure, mechanical properties, fracture behavior and strengthening mechanisms of the Ti-Mo-Si composites were studied systematically. With the addition of Al-doped MoSi2, the matrix microstructure of the Ti-Mo-Si composites was refined and the mechanical properties were improved significantly. Notably, the TMC reinforced by 4 wt.% Al-doped MoSi2 shows higher tensile strength and bending strength (766 MPa and 2616 MPa) than those of TMC (733 MPa and 2236 MPa) without Al-doping, respectively. The improvement in mechanical strength can be attributed to the mitigated interfacial reaction and the solid solution strengthening induced by Al. The robust interfacial bonding between Ti5Si3 particles and matrix proves a high load transfer efficiency and a uniform strain distribution. In addition, dislocation strengthening and grain boundary strengthening play the key role in governing overall strength the Ti-Mo-Si composites.
Keywords: Titanium matrix composite, Microstructure, grain refinement, Interfacial reaction, Mechanical properties.
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