Effect of Hydrogen on the Elastic and Anelastic Properties of the R Phase in Ti50Ni46.1Fe3.9 Alloy

Abstract: Abstract:The linear and non-linear internal friction, effective Young's modulus, and amplitude-dependent modulus defect of a Ti 50 Ni 46.1 Fe 3.9 alloy have been studied after different heat treatments, affecting hydrogen content, at temperatures of 13-300 K, and frequencies near 90 kHz. It has been shown that the contamination of the alloy by hydrogen gives rise to an internal friction maximum in the R martensitic phase and a complicated pinning stage in the temperature dependence of the effective Young's mod… Show more

“…Anelastic properties of Ti-Ni-based alloys are widely explored, both for microstructural characterization of the alloys and for their application as high-damping materials [35]. Sapozhnikov et al investigated the linear and non-linear internal friction, effective Young's modulus, and amplitudedependent modulus defect of a Ti 50 Ni 46.1 Fe 3.9 alloy after different heat treatments, affecting hydrogen content [36]. They found that the internal friction maximum is associated with a competition of two different temperature-dependent processes affecting the hydrogen concentration in the core regions of twin boundaries.…”

Novel Research for Development of Shape Memory Alloys

“…Anelastic properties of Ti-Ni-based alloys are widely explored, both for microstructural characterization of the alloys and for their application as high-damping materials [35]. Sapozhnikov et al investigated the linear and non-linear internal friction, effective Young's modulus, and amplitudedependent modulus defect of a Ti 50 Ni 46.1 Fe 3.9 alloy after different heat treatments, affecting hydrogen content [36]. They found that the internal friction maximum is associated with a competition of two different temperature-dependent processes affecting the hydrogen concentration in the core regions of twin boundaries.…”

Novel Research for Development of Shape Memory Alloys

Internal friction in complex ferroelastic twin patterns

Anelasticity of the martensitic phase of Ni55Fe18Ga27 single crystals in hyperstabilized and nonstabilized states