Rate-dependent domain spacing in a stretched NiTi strip
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Publication:1960022
DOI10.1016/j.ijsolstr.2010.06.006zbMath1196.74162OpenAlexW2069564152MaRDI QIDQ1960022
Publication date: 12 October 2010
Published in: International Journal of Solids and Structures (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.ijsolstr.2010.06.006
thermo-mechanical couplingmartensitic phase transitionpower-law scalingNiTi polycrystalline shape memory alloyrate-dependent domain spacingself-organized domains
Stefan problems, phase changes, etc. (80A22) Thermal effects in solid mechanics (74F05) Crystals in solids (74N05)
Related Items (5)
Thermomechanics of shells undergoing phase transition ⋮ A phase-field study of the martensitic detwinning in NiTi shape memory alloys under tension or compression ⋮ A two-scale thermo-mechanically coupled constitutive model for grain size- and rate-dependent deformation of nano-crystalline NiTi shape memory alloy ⋮ On non-monotonic rate dependence of stress hysteresis of superelastic shape memory alloy bars ⋮ Effect of aspect ratio and boundary conditions in modeling shape memory alloy nanostructures with 3D coupled dynamic phase-field theories
Cites Work
- A multiscale continuum model of the grain-size dependence of the stress hysteresis in shape memory alloy polycrystals
- Effects of structural and material length scales on stress-induced martensite macro-domain patterns in tube configurations
- Thermodynamics of rate-independent plasticity
- On the viscous and strain rate-dependent behavior of polycrystalline NiTi
- Scaling relationship on macroscopic helical domains in NiTi tubes
- A continuum model of a thermoelastic solid capable of undergoing phase transitions
- A model for an elastic-plastic body
- Rate and thermal sensitivities of unstable transformation behavior in a shape memory alloy.
- Simulations of localized thermo-mechanical behavior in a NiTi shape memory alloy.
- Stress-induced transformation behavior of a polycrystalline NiTi shape memory alloy: micro and macromechanical investigations via in situ optical microscopy
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