Several experiments are performed
to study the material behavior of NiTi shape memory alloys
(SMAs).
When acted on by an external driving force (e.g. temperature,
stress, strain, or magnetic field), SMAs undergo a solid state
phase transformation, referred to as a martensitic transformation.
If the driving force is temperature, SMAs transform from a
high temperature parent phase (austentite) to a low temperature
product phase (martensite).
Thus, an SMA material can be cooled so that the material
achieves a martensitic phase. The material can then be subjected
to an applied load, and the material will return back to its
original shape and crystallographic orientation when heated.
Because of the nature of the microscopic transformation, the
material "remembers" its original shape when heated.
Uniaxial tension/compression and fatigue, DSC, resistivity,
and magnetic experiments are performed to evaluate and characterize
shape memory behavior.
Related Publications:
Sehitoglu, H., D. Canadinc, R. Hamilton, X. Y. Zhang,
K. Gall, I. Karaman, Y. Chumlyakov, and H. J. Maier, "Detwinning
in NiTi Alloys," Metallurgical and Materials Transactions,
34A, 2003.pdf
Y. I. Chumlyakov, E. Yu Panchenko, I.V. Kireeva, S. P. Efimenko,
V. B. Aksenov, and H. Sehitoglu, “Dependence of Shape
Memory Effect and Superelasticity on the Number of Variants
of Disperesed Particles in Titanium-Nickel Single Crystals,”
Doklady Physics, 47, 510, 2002.
Gall, K., M. Dunn, Y. Liu, P. Labossiere, H. Sehitoglu, and
Y. I. Chumlyakov, "Micro and Macro Deformation in Oriented
NiTi Single Crystals," Journal of Engineering Materials
and Technology A, 124, 238, 2002.
Sehitoglu, H., J. Jun, X. Zhang, I. Karaman, Y. Chumlyakov,
H. J. Maier, and K. Gall, "Shape Memory and Pseudoelastic
Behavior of 51.5% Ni-Ti Single Crystals in Solutionized and
Overaged State," Acta Materialia, 49, 3609-3620, 2001.pdf
Gall, K., K. Juntunen, H. J. Maier, H. Sehitoglu, and Y.
I. Chumlyakov, "Instrumented Micro-Indentation of NiTi
Shape Memory Alloys," Acta Materialia, 49, 3205-3217,
2001.
Sehitoglu, H., R. Anderson, I. Karaman, K. Gall, and Y. Chumlyakov,
"Cyclic Deformation Behavior of Single Crystal NiTi,"
Materials Science and Engineering, A314, 67-74, 2001.pdf
Gall, K., H. Sehitoglu, R. Anderson, I. Karaman, Y. Chumlyakov,
and I. V. Kireeva, "On the Mechanical Behavior of Single
Crystal NiTi Shape Memory Alloys and Related Polycrystalline
Phenomenon," Materials Science and Engineering, A317,
85-92, 2001.pdf
Sehitoglu, H., I. Karaman, R. Anderson, X. Zhang, K. Gall,
H. J. Maier, and Y. Chumlyakov, "Compressive Response
of NiTi Single Crystals," Acta Materialia, 48, 3311-3326,
2000.pdf
Gall, K., T. J. Lim, D. McDowell, H. Sehitoglu, and Y. I.
Chumlyakov, "The Role of Intergranular Constraint on
the Stress Induced Martensitic Transformation in Textured
Polycrystalline NiTi," International Journal of Plasticity,
16, 1189-1214, 2000.
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