Influence of Zr content on phase formation, transition and mechanical behavior of Ni-Ti-Hf-Zr high temperature shape memory alloys

Quaternary Ni-Ti-Hf-Zr high temperature shape memory alloys containing different Zr content (0–15 at.%) were prepared by arc melting and suction casting. The addition of Zr led to change in lattice parameters and monoclinic angle of B19′ martensite phase. The phase transformation temperature as well...

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Bibliographic Details
Published in:Journal of alloys and compounds 2017-01, Vol.692, p.77-85
Main Authors: Hong, Sung Hwan, Kim, Jeong Tae, Park, Hae Jin, Kim, Young Seok, Suh, Jin Yoo, Na, Young Sang, Lim, Ka Ram, Shim, Cheol Hwee, Park, Jin Man, Kim, Ki Buem
Format: Article
Language:English
Subjects:
Alloying additive
Alloys
Casting alloys
Deformation
Electric arc melting
Evolution
Hafnium base alloys
High temperature
Lattice parameters
Martensite
Martensitic transformations
Mechanical properties
Nickel base alloys
Phase transition
Phase transitions
Shape memory alloy
Shape memory alloys
Suction
Titanium base alloys
Transformation temperature
Twinning
Yield stress
Yielding behavior
Zirconium base alloys
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Summary:Quaternary Ni-Ti-Hf-Zr high temperature shape memory alloys containing different Zr content (0–15 at.%) were prepared by arc melting and suction casting. The addition of Zr led to change in lattice parameters and monoclinic angle of B19′ martensite phase. The phase transformation temperature as well as yield strength of the alloys gradually increased with increasing the Zr content. Moreover, the alloys exhibited significant changes in phase transition and deformation behaviors. With the addition of Zr up to 7 at.%, the alloys exhibited double yielding and two-step phase transition behaviors. In contrast, alloys containing 10 and 15 at.%Zr revealed single yielding and one-step phase transition behaviors. These distinctions on phase transition and yielding behaviors of the alloys were mainly related to the structural evolution related to twinning mode in martensite phase of as-cast alloys originated from the change of lattice distortion during martensitic transformation by increasing of Zr content. Through detailed investigations on the microstructural features, thermal characteristics, mechanical properties and structural evolution on deformation of the alloys, the influence of Zr content on phase formation, phase transition and deformation behavior of Ni-Ti-Hf-Zr high temperature shape memory alloys was elucidated. [Display omitted] •Addition of Zr leads to change of lattice parameters of B19′ martensite phase.•The phase transition path on heating and cooling was changed by Zr content.•Yielding behavior is related to evolution of twinning mode in martensite plate.•Correlation between structural evolution and deformation behavior was studied.•Structural evolution during deformation was the key to decide yielding behavior.
ISSN:0925-8388
1873-4669
DOI:10.1016/j.jallcom.2016.09.023