Pulsed magnetic field-induced single twin boundary motion in Ni–Mn–Ga 5M martensite: A laser vibrometry characterization

Pulsed magnetic field-induced motion of single twin boundaries in Ni–Mn–Ga 5M martensite has been studied using laser vibrometry technique. Maximum actuation velocities of 0.25m/s for Type I and 2m/s for Type II twin boundary motion were directly observed, which corresponds to velocities of 4.2m/s a...

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Veröffentlicht in:	Scripta materialia 2016-03, Vol.113, p.154-157
Hauptverfasser:	Saren, A., Musiienko, D., Smith, A.R., Ullakko, K.
Format:	Artikel
Sprache:	eng
Schlagworte:	Actuation Boundaries Constraining Ferromagnetic shape memory alloy Inertia Lasers Magnetic shape memory Martensite Nickel Ni–Mn–Ga Twin boundaries Twin boundary Twinning
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description	Pulsed magnetic field-induced motion of single twin boundaries in Ni–Mn–Ga 5M martensite has been studied using laser vibrometry technique. Maximum actuation velocities of 0.25m/s for Type I and 2m/s for Type II twin boundary motion were directly observed, which corresponds to velocities of 4.2m/s and 33m/s for these types of twin boundaries moving inside the crystal. Actuation response time of 2μs and actuating acceleration of about 2×105m/s2 for Type II boundary were achieved. The difference between Type I and Type II boundaries and the limiting role of inertia in twin boundary motion are discussed. [Display omitted]
doi_str_mv	10.1016/j.scriptamat.2015.10.020
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subjects	Actuation Boundaries Constraining Ferromagnetic shape memory alloy Inertia Lasers Magnetic shape memory Martensite Nickel Ni–Mn–Ga Twin boundaries Twin boundary Twinning
title	Pulsed magnetic field-induced single twin boundary motion in Ni–Mn–Ga 5M martensite: A laser vibrometry characterization
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