Effect of welding current on the microstructure, residual stresses, mechanical properties and nano-mechanical behaviour of P-TIG welded TiNi binary shape-memory alloy

Asif, Huzaifa; Khan, Mushtaq; Shehbaz, Tauheed; Khan, Fahd Nawaz; Iltaf, Asim; Junaid, Massab

doi:10.1177/14644207221085699

Cited by 2 publications

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“…This variation in the penetration depth can be due to the indentation effect that occurred at the α ′ martensite phase and grain boundaries. 55,56…”

Section: Resultsmentioning

confidence: 99%

“…This variation in the penetration depth can be due to the indentation effect that occurred at the α ′ martensite phase and grain boundaries. 55,56 Figure 7 (c) presents the nanohardness and elastic moduli of all the beads, along with the BA. It can be noticed that with the increase in the average power from 360 W to 440 W, the nanohardness and elastic moduli of the beads decreased by ∼35.3% and ∼16%, respectively.…”

Section: Nanomechanical Characterizationmentioning

confidence: 99%

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Influence of pulsed Nd:YAG laser welding power on the microstructures and nano creep behaviour of Ti5Al2.5Sn beads

Asif

Khan

Shehbaz

et al. 2022

Proceedings of the Institution of Mechanical Engineers, Part L:

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Pulsed Nd:YAG laser beam welding was performed at five different power levels (360 W, 380 W, 400 W, 420 W and 440 W), and the relationship between microstructure and nano creep behaviour was investigated for Ti5Al2.5Sn alloy. Microstructural analysis indicated a reduction in grain size in fusion zone, with an increase in the average laser power. In the fusion zone (FZ) of all the beads, acicular α and ά martensite were observed and confirmed by SEM analysis. Due to the formation of the α and ά phases during welding, the microhardness and nanohardness in the FZ increased by ∼71% and ∼58%, respectively, above that of the base alloy. Nano creep analysis suggested diffusional creep as the deformation mechanism in all the beads, except the one performed at an average power of 440 W since its stress exponent was less than 2.

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“…This variation in the penetration depth can be due to the indentation effect that occurred at the α ′ martensite phase and grain boundaries. 55,56…”

Section: Resultsmentioning

confidence: 99%

Section: Nanomechanical Characterizationmentioning

confidence: 99%