Thermal stability of irradiation-induced metastable lattice structures in NiTi intermetallic compound

M. Ochi, H. Kojima, K. Fukuda, Y. Kaneno, S. Semboshi, F. Hori, Y. Saitoh, A. Iwase
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引用次数: 1

Abstract

To investigate the thermal stability of the ion-irradiation induced metastable lattice structures in bulk samples of NiTi intermetallic compound, they were irradiated with 16MeV Au ions at room temperature, and were subsequently annealed up to 823K. The lattice structures of the irradiated samples and the annealed samples were examined by using the x-ray diffraction. The measurements have also been performed for NiTi irradiated at 523K. The amorphous state induced by 16MeV Au ion irradiation at room temperature recovers to the intrinsic B19 ’ structure by the thermal annealing above 673K. The lattice structure, however, hardly changed even after the irradiation at 523K. The experimental result implies that the thermal motion of atoms in NiTi during the irradiation is much more effective for the recovery of the irradiation effect. The effect of thermal annealing on the surface hardness is also discussed.
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辐照诱导NiTi金属间化合物亚稳晶格结构的热稳定性
为了研究离子辐照诱导的NiTi金属间化合物亚稳晶格结构的热稳定性,在室温下用16MeV Au离子辐照,然后退火至823K。用x射线衍射分析了辐照样品和退火样品的晶格结构。对523K辐照的镍钛也进行了测量。室温16MeV Au离子辐照诱导的非晶态在673K以上退火后恢复到B19 '的本构结构。而在523K辐照后,晶格结构几乎没有变化。实验结果表明,NiTi中原子在辐照过程中的热运动对辐照效果的恢复更为有效。讨论了热处理对表面硬度的影响。
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