B. Panton scite author profile

This work is the first investigation of joining NiTi and copper. The successful Nd:YAG laser welding of NiTi to copper achieved in this work enables new methods of connecting shape memory alloys to electro-mechanical systems. Joints made with an optimum peak power of 2.2 kW accommodated pseudoelastic deformation of NiTi, proving their use with high strength actuators. Fracture occurred through the cross section of these defect-free joints. A lower peak power of 1.8 kW created weak joints with limited weld penetration of the copper sheet. This lack of bonding resulted in fracture occurring across the small disconnected joint areas. Joints made with a higher peak power of 2.6 kW had significant cracking in the fusion zone. Two regions of distinct Cu composition were found in the fusion zone, and cracking occurred at the interface between these regions because of their different physical properties. Failure initiated at this cracking and propagated through the fusion zone that had been embrittled by mixing with over 20 at.% Cu.

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Dissimilar Laser Joining of NiTi SMA and MP35N Wires

Panton

Pequegnat

Zhou

2014

Metall Mater Trans A

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Local composition and microstructure control for multiple pseudoelastic plateau and hybrid self-biasing shape memory alloys

et al. 2016

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B. Panton

Laser joining of NiTi to Ti6Al4V using a Niobium interlayer

Laser welded superelastic Cu–Al–Mn shape memory alloy wires

Dissimilar laser welding of NiTi shape memory alloy and copper

Dissimilar Laser Joining of NiTi SMA and MP35N Wires

Local composition and microstructure control for multiple pseudoelastic plateau and hybrid self-biasing shape memory alloys

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