Modification of microstructure and hardness for Cu–Ti alloy by means of energetic ion beam irradiation

Modification of microstructure and hardness for Cu–Ti alloy by means of energetic ion beam irradiation

Cu–Ti alloys were irradiated with5.4MeV Al ions, 7.3MeV Fe ions, 10MeV I ions, and 16MeV Au ions at room temperature and the Vickers microhardness was measured. The hardness once increases by the irradiation with a low fluence, and then it remains almost constant even with increasing the ion fluence...

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Veröffentlicht in:Nuclear instruments & methods in physics research. Section B, Beam interactions with materials and atoms Beam interactions with materials and atoms, 2014-12, Vol.341, p.53-57
Hauptverfasser: Ueyama, D., Semboshi, S., Saitoh, Y., Hori, F., Nishida, K., Soneda, N., Iwase, A.
Format: Artikel
Sprache:eng
Schlagworte:
Clusters
COPPER ALLOYS (40 TO 99.3 CU)
Copper base alloys
COPPER TITANIUM ALLOYS
Cu–Ti
Density
Deposited energy density
ELECTRONIC PRODUCTS
Electronics
Fluence
Hardness
Ion-irradiation Vickers hardness
IONS
IRRADIATION
MICROSTRUCTURES
RADIATION
Three-dimensional atom probe
Titanium
Vickers microhardness
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Zusammenfassung:Cu–Ti alloys were irradiated with5.4MeV Al ions, 7.3MeV Fe ions, 10MeV I ions, and 16MeV Au ions at room temperature and the Vickers microhardness was measured. The hardness once increases by the irradiation with a low fluence, and then it remains almost constant even with increasing the ion fluence. The change in hardness was well correlated with the density of energy deposited through the elastic collisions and not the electronic excitation. The observation of atom probe tomography (APT) did not show any Ti clusters in the irradiated specimens. This result suggests that not Ti clusters but lattic defects (interstitial atoms, vacancies and/or their aggregates) contributed to the increase in hardness of Cu–Ti alloys.
ISSN:0168-583X
1872-9584
DOI:10.1016/j.nimb.2014.06.033