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Table 1
Amorphization tendency in intermetallic compounds under MeV electron irradiation. The experimental data on the occurrence of solid-state amorphization (crystal-to-amorphous transition) by MeV electron irradiation reported to date [1,2]. The experimental data list was firstly developed by H. Mori [3], and most of the data are taken from that list.
Updated, 12/25/2014
| Compounds | Experiment | C-A-C transition | Memo | |
| Al2Au | No | |||
| Al2Cu | No | |||
| AlCu(η2) | No | |||
| Al9Co2 | Yes | |||
| Al5Co2 | No | |||
| Al7Cr | Yes | |||
| Al5Cr | Yes | |||
| Al4Cr | Yes | |||
| Al9Cr4 | No | |||
| Al8Cr5 | No | |||
| AlCr2 | No | |||
| Al3Fe | Yes | |||
| Al5Fe2 | No | |||
| Al2Fe | No | |||
| AlFe | No | |||
| Al6Mn | Yes | |||
| Al4Mn | Yes | |||
| Al3Mn | No | |||
| Al11Mn4 | No | |||
| AlMn (γ2) | No | |||
| Al12Mo | No | |||
| Al8Mo3 | No | |||
| Al3Ni | No | |||
| Al3Ni2 | No | |||
| AlNi | No | |||
| AlNi3 | No | |||
| Al10V | Yes | |||
| Al45V7 | Yes | |||
| Al23V4 | Yes | |||
| Al3V | No | |||
| Al8V5 | No | |||
| Al3Ti | No | |||
| Al2Zr | Yes | |||
| Al3Zr2 | Yes | |||
| AlZr | Yes | |||
| Al4Zr5 | Yes | |||
| Al3Zr4 | Yes | |||
| Al2Zr3 | Yes | |||
| AlZr2 | Yes | |||
| Al3Zr | No | |||
| AlZr3 | No | |||
| Al12W | No | |||
| BCo2 | Yes | |||
| BCo3 | Yes | |||
| BCo | No | |||
| BFe3 | Yes | |||
| BFe2 | No | |||
| B3Ni4 (o) | Yes | |||
| BNi2 | Yes | |||
| BNi | No | |||
| B3Ni4 (m) | No | |||
| BNi3 | No | |||
| Co3Ti | No | |||
| Co2Ti | Yes | |||
| CoTi | No | |||
| CrFe | No | |||
| Cr2Zr | Yes | ○ | ||
| Cr2Ti | Yes | |||
| Cu3Ti2 | Yes | |||
| Cu4Ti3 | Yes | |||
| CuTi | Yes | |||
| CuTi2 | Yes | |||
| Cu4Ti | No | |||
| Cu10Zr7 | Yes | |||
| CuZr | Yes | |||
| CuZr2 | Yes | ○ | ||
| Fe17Nd2 | Yes | ○ | ||
| Fe2Ti | Yes | |||
| FeTi | No | |||
| FeZr2 | Yes | |||
| FeZr3 | Yes | |||
| Mn2Ti | Yes | |||
| MoNi | Yes | |||
| Nb7Ni6 | Yes | |||
| NbNi3 | No | |||
| NiTi | Yes | |||
| NiTi2 | Yes | |||
| Ni3Ti | No | |||
| Ni3Zr | Yes | |||
| NiZr | Yes | |||
| NiZr2 | Yes | |||
| PdTi2 | No | Partial Amorphization | ||
| PdZr2 | Yes | ○ | ||
| Pt3Zr5 | Yes | ○ | ||
| Fe23Nd2B3 | Yes | ○ | ||
| Fe14Nd2B | Yes | ○ | ||
| Fe81Zr9B10 | Yes | ○ | ||
| Fe4Nd1.1B4 | No | |||
| Ti50Ni48Fe2 | Yes | |||
| Ti50Ni44Fe6 | Yes | |||
| Ti50Ni40Fe10 | Yes | |||
| Ti50Ni30Fe20 | Yes | |||
| Ti50Ni20Fe30 | Yes | |||
| Ti50Ni10Fe40 | Yes | |||
REFERENCES
[1] T. Nagase (Contribution): Advanced materials design by irradiation of high energy particles, in: Progress in Advanced Structural and Functional Materials Design, Ed., T. Kakeshita, Springer, 2013. pp. 137-153. ISBN 978-4-431-54063-2., http://www.springer.com/materials/structural+materials/book/978-4-431-54063-2
[2] T. Nagase, P. D. Rack, J. H. Noh, T. Egami, Intermetallics, 59, 32-42 (2015)., http://dx.doi.org/10.1016/j.intermet.2014.12.007
[3] H. Mori, Current topics in amorphous materials, in: Y. Sakurai, Y. Hamakawa, T. Masumoto, K. Shirae, K. Suzuki (Eds.), Physics and Technology, Elsevier Science Publishers, Amsterdam, 1997, pp. 120-126.
