Experimental and numerical assessment of the characteristics describing superelasticity in shape memory alloys – influence of boundary conditions

Abstract: Abstract. Relatively recent discovery of shape memory alloys (SMA) justifies ongoing research on their properties and an attempt to explain the physical phenomenon responsible for the characteristic behaviour of SMA. Moreover, there have been reported many successful commercial SMA applications to medical cases, mostly based on superelasticity. Even though a wide application range is confirmed, its further contribution growth is currently not seen -mostly due to deficiency of reliable modelling techniques. Rec… Show more

“…Some of the observed phenomena are not studied yet sufficiently to allow for a reliable theoretical description. Providing with an example, it should be highlighted that the influence of boundary conditions on the behavior of SMA and spontaneity of the martensitic phase transition is still a missing part [48]. The physics of SMA seems complex, which explains why so many attempts have been made so far toward the development of new reliable and accurate models [47].…”

Nonlocal elasticity in shape memory alloys modeled using peridynamics for solving dynamic problems

“…Some of the observed phenomena are not studied yet sufficiently to allow for a reliable theoretical description. Providing with an example, it should be highlighted that the influence of boundary conditions on the behavior of SMA and spontaneity of the martensitic phase transition is still a missing part [48]. The physics of SMA seems complex, which explains why so many attempts have been made so far toward the development of new reliable and accurate models [47].…”

Nonlocal elasticity in shape memory alloys modeled using peridynamics for solving dynamic problems