Research Article Open Access

Fiber Laser Beam Welding Between Niobium and Titanium

Rafael Humberto de Mota Siqueira1, Isabela Atilio1, Caroline Cristine de Andrade Ferreira1, Sheila Medeiros de Carvalho1 and Milton Sergio Fernandes de Lima1
  • 1 Institute for Advanced Studies, Brazil

Abstract

Niobium and titanium are difficult to weld because of many factors, such as their tendency to oxidize and burn and the relatively high melting temperatures. Here, fiber laser beam welding has been proposed to weld Nb and Ti sheets in overlap geometry. In the current research, one millimeter thick CP-Ti was placed at the top and a 3 mm pure Nb stay underneath. The laser parameters were power between 1000 and 1400 W and speed between 20 and 60 mm/s, with the focus on the upper surface (beam diameter of 0.1 mm). The fusion depth varied, but the average value was 1.7±0.3 mm, i.e. about 0.7 mm into the Nb-phase. The microstructure was characterized by a partial dissolution between the Nb-rich and Ti-rich regions all over the β(Nb, Ti) solid solution at high temperatures. The micro-constituents presents slightly different hardnesses from 130 to 180 HV0.05 depending on the region. The welds are defect free, even at the interface between the plates and around the phase modulations. These features indicate that the laser beam welding of Ti-Nb alloys could be a valuable technique for the fabrication of aerospace components.

Journal of Aircraft and Spacecraft Technology
Volume 4 No. 1, 2020, 21-25

DOI: https://doi.org/10.3844/jastsp.2020.21.25

Submitted On: 28 January 2020 Published On: 9 March 2020

How to Cite: de Mota Siqueira, R. H., Atilio, I., de Andrade Ferreira, C. C., de Carvalho, S. M. & de Lima, M. S. F. (2020). Fiber Laser Beam Welding Between Niobium and Titanium. Journal of Aircraft and Spacecraft Technology, 4(1), 21-25. https://doi.org/10.3844/jastsp.2020.21.25

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Keywords

  • Niobium
  • Titanium
  • Laser Beam Welding
  • Aerospace Materials