In-situ strain measurement of shape memory alloy fiber during the austenitic and martensitic phase transformation

Abstract: Fibers made from shape memory alloys perform strain recovery during phase transformation of crystal structure. Controlled parameters such as heating time, holding temperature, and cooling time dominate the micro deformation of shape memory alloy fiber (SMAF). Mechanical contraction occurs at high temperature (austenitic phase), and strain-relief happens at low temperature (martensitic phase). But the rapid change of temperature causes unfinished or incomplete phase transformation, which induces residual strain… Show more

“…Nevertheless, the impact of this insulation coating on the mechanical response of the SMA wire remains uncertain. Unlike traditional conductive wires that experience negligible length changes with electric current, the length of SMA wires changes significantly during execution, potentially affecting the interface bonding between the coating and the SMA wires [11]. Therefore, any coating applied to SMA wires needs to have good elasticity to accommodate these length changes during execution.…”

Effect of polyurethane coating on mechanical response of shape memory alloy wires

“…Nevertheless, the impact of this insulation coating on the mechanical response of the SMA wire remains uncertain. Unlike traditional conductive wires that experience negligible length changes with electric current, the length of SMA wires changes significantly during execution, potentially affecting the interface bonding between the coating and the SMA wires [11]. Therefore, any coating applied to SMA wires needs to have good elasticity to accommodate these length changes during execution.…”

Effect of polyurethane coating on mechanical response of shape memory alloy wires