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• W2085655242 abstract "Propagation of phase transformation fronts during the stress induced martensitic (SIM) transformation at impact strain rates, on the order of 10 s -1 , was observed in situ by measuring changes in infrared radiation on the surface of superelastic NiTi wires. The exothermic/endothermic character of the forward/reverse SIM transformation changes the local temperature making visible the nucleation and propagation of phase transformation fronts. The nucleation during forward SIM transformation usually occurs at both ends of the sample near the grips, where stress concentrations are unavoidable. During unloading, nucleation of the reverse SIM transformation takes place at point where the forward SIM transformation was finished. At impact no more nucleations were observed so that only the phase transformation fronts arising from the mentioned nucleations appear. In the non-transformed zone, the temperature remains similar to that observed for the test in which only the elastic deformation of the austenitic phase occurs. This feature shows that the SIM transformation at impact strain rates is inhomogeneous and, similarly to that observed at very low strain rates, lower than 10 -4 s -1 , when the deformation may be considered as an isothermal process and the temperature in the sample remains almost constant, no multiple transformation fronts appear as is observed when strain rate is on the order of 10 -4 -10 -2 s -1 . For specimens cycled at impact, the nucleation at the beginning of the SIM transformation occurs at several locations and during the deformation more nucleation points arise since the stress necessary to initiate another nucleations is lower than necessary to continue the propagation of the active fronts. These locations are similar for different cycles showing that they do not arise by chance, but rather because there are locations more favourable for the nucleation. the present work, the phase transformation fronts at impact strain rates, on the order 10 s -1 , were observed on the surface of NiTi wires via thermographic observations. The stress-strain response was simultaneously registered with the thermographic observations in order to link the evolution of the transformation fronts with the mechanical behaviour. 2. Experimental procedure Infrared thermographic pictures were taken at a frame rate of 1250 Hz with a high speed thermographic camera Flir Titanium 550M during tensile deformation of NiTi wires at impact strain rates. The impact tests were carried out with an instrumented tensile impact device. The whole experimental set-up is shown in figure 1. It consists on an impactor which deforms the sample by hitting a mobile grip at which the sample is attached. The impact force is measured by a piezoelectric sensor ICP a quartz force ring attached to the other grip which is fixed. The measurement of the deformation during the impact was carried out with a laser± based noncontacting measurement equipment Polytec OFV± 505. More detailed information of the instrumented tensile impact test applied to SMA wires may be found in (7). During deformation, simultaneous measurements of infrared" @default.
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• W2085655242 date "2009-01-01" @default.
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• W2085655242 title "Phase transformation fronts propagation during the stress induced martensitic transformation at impact strain rates in NiTi shape memory alloy wires" @default.
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• W2085655242 doi "https://doi.org/10.1051/esomat/200906038" @default.
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