In-situ Ni alloying for microstructure evolution and strength enhancement of laser aided additively manufactured Ti–6Al–4V alloy. (IMAGE)

International Journal of Extreme Manufacturing

In-situ Ni alloying for microstructure evolution and strength enhancement of laser aided additively manufactured Ti–6Al–4V alloy.

Caption

The in-situ Ni alloying demonstrates four effects on the microstructure of LAAM Ti-6Al-4V alloy. (i) Ni additive can remarkably refine the prior-β grains. (ii) Ni additive can discernibly induce the formation of globular α phase. (iii) Ni additive can induce the precipitation of Ti2Ni nanoparticle. (iv) Ni as a well-known β-stabilizer and it can remarkably increase the volume fraction of β phase. Room-temperature tensile results demonstrated an increase in mechanical strength and an almost linearly decreasing elongation with increasing Ni addition. A modified mathematical model was used for quantitative analysis of the strengthening mechanism. It was evident from the results that the α lath phase and the solid solutes contribute the most to the overall yield strength of LAAM-built Ti-6Al-4V-xNi alloys in this work.

Credit

By Shang Sui, Youxiang Chew, Fei Weng, Chaolin Tan, Zhenglin Du, Guijun Bi.

Usage Restrictions

Credit must be given to the creator.

License

CC BY

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