Composition, compatibility, and the functional performances of ternary NiTiX high-temperature shape memory alloys
A general procedure to optimize shape memory alloys (SMAs) for specific engineering
performance metrics is outlined and demonstrated through a study of ternary, NiTiX high …
performance metrics is outlined and demonstrated through a study of ternary, NiTiX high …
Modeling the pseudoelastic design space of NiTi fabricated by laser powder bed fusion
N Zeleznik, A Hinojos, X Gao, M Nematollahi… - Additive …, 2023 - Elsevier
This work explores the underlying origins for an experimentally-observed correlation
between the cyclic pseudoelastic response of Ni 50.8 Ti 49.2 and the hatch spacing used in …
between the cyclic pseudoelastic response of Ni 50.8 Ti 49.2 and the hatch spacing used in …
In situ neutron diffraction studies of large monotonic deformations of superelastic nitinol
Superelastic Nitinol micromechanics are studied well into plastic deformation regimes using
neutron diffraction. Insights are made into the nature of initial transformation, bulk …
neutron diffraction. Insights are made into the nature of initial transformation, bulk …
Implicit implementation of a coupled transformation–plasticity crystal mechanics model for shape memory alloys that includes transformation rotations
A rate-dependent crystal-plasticity (CP) framework that captures the coupled phase
transformation-plastic deformation behavior of shape memory alloys (SMAs) is presented …
transformation-plastic deformation behavior of shape memory alloys (SMAs) is presented …
In situ neutron diffraction studies of increasing tension strains of superelastic nitinol
A micromechanical study of the effect of varying amounts of tensile strains on the
microstructures and subsequent mechanical behaviors of superelastic Nitinol rods is …
microstructures and subsequent mechanical behaviors of superelastic Nitinol rods is …
Laser-induced recoverable surface patterning on Ni50Ti50 shape memory alloys
S Ilhom - 2018 - digitalcommons.wku.edu
Shape memory alloys (SMAs) are a unique class of smart materials exhibiting extraordinary
properties with a wide range of applications in engineering, biomedical, and aerospace …
properties with a wide range of applications in engineering, biomedical, and aerospace …
The Effect of Nanoscale Precipitates on the Templating of Martensite Twin Microstructure in NiTiHf High Temperature Shape Memory Alloys
KV Esham - 2017 - rave.ohiolink.edu
Shape memory alloys (SMAs) are a class of materials that undergo a diffusionless,
martensitic transformation. Due to their unique shape memory and superelastic properties …
martensitic transformation. Due to their unique shape memory and superelastic properties …