Fabrication and evaluation of a "nickel-free" shape memory alloy
The issues of hypersensitivity and potential toxicity ofNi simulate the development of the new types of Ni-free shape memory alloys. Preliminary investigation on the phase transformation and the superelasticity of a new shape memory alloy is conducted in this research. Considering the requi...
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| Format: | Theses and Dissertations |
| Language: | English |
| Published: |
2013
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| Subjects: | |
| Online Access: | http://hdl.handle.net/10356/54772 |
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| Institution: | Nanyang Technological University |
| Language: | English |
| Summary: | The issues of hypersensitivity and potential toxicity ofNi simulate the development
of the new types of Ni-free shape memory alloys. Preliminary investigation on the
phase transformation and the superelasticity of a new shape memory alloy is
conducted in this research. Considering the requirements on biocompatibility and
mechanical property, guided by D-electron alloy design method and Mo equivalent
method, the composition is designed as Ti-4Mo-3Nb at.%. The alloy is produced by
arc melting and its composition is examined by Energy dispersive spectrometer
(EDS). In order to obtain the supersaturated solid solution, the alloy is quenched from
1173K into water. Differential scanning calorimetry (DSC) is used to detect the
transformation temperatures of alloys and the results are as follows: As= 25°C,
Af = 66°C, M.\. = 81°C, Mf = _8°C. X-ray diffraction (XRD) is used to confirm
that the alloy consists of a" and f3 phases at the 24°C. The peaks in DSC curve
decline as the test cycle increases and two explanations are proposed. Aging at 573K
for 1800s and 573K for 7200s are conducted to investigate the effect ofheat treatment.
In terms ofthe sample aged for 1800s, both the critical stress for inducing martensite
(YSIM and the critical stress for slip (J"s are higher than the critical stress of the
sample subjected to the solution treatment. For the alloy aged for 7200s, the stress
can induce the martensite continually at a constant stress after the elastic deformation.
Therefore, aging at 573K for 7200s can control (YSIM and (J"s in a good range. |
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