Add to ORKGExperimental results of irradiation effects by heavy ions with high inelastic energy losses at the surfaces of some amorphous alloys are presented. It was shown that all studied alloys strongly swelled: up to 15% for Ni58Nb42 under irradiation with the 305 MeV 86Kr ion at a fluence of 1015 ion/cm2. Besides, the sputtering (evaporation) process takes place, too. Calculations of the temperatures on the ion trajectory axis were presented. It was shown that the calculated temperatures are higher than the melting temperature and the evaporation temperature, too. From these findings we can conclude that the sputtering (evaporation) of atoms in amorphous alloys is present
The complex interplay of several physical processes in altering the surface and subsurface compositi...
The complex interplay of several physical processes in altering the surface and subsurface compositi...
In this work, influence of $^{238}$U swift (5.9 MeV/u) heavy ions on the as-prepared Fe–Cu–Nb–Si–B m...
The results on the study of surface structure of solids, like metals, metal alloys, amorphous metal ...
We are trying to make new functional materials by the modification of local structure and character ...
NiTi was irradiated with Ni ions to study the rate of amorphization as a function of temperature and...
Room temperature ion implantation of 40 keV phosphorus ions into crystalline (f.c.c.) nickel resulte...
Modifications of structural arrangements including relaxation processes were investigated in swift-h...
Modifications of structural arrangements including relaxation processes were investigated in swift-h...
It was proposed that amorphous alloys may be more resistant to radiation damage than crystalline met...
Electronic excitation (dE/dx)e due to swift-heavy-ion irradiation induces giant plastic deformation ...
Electronic excitation (dE/dx)e due to swift-heavy-ion irradiation induces giant plastic deformation ...
Crystalline Ni3B samples have been irradiated with GeV heavy ions (from 16O to 238U) at low temper...
Crystalline Ni3B samples have been irradiated with GeV heavy ions (from 16O to 238U) at low temper...
Electronic excitation (dE/dx)e due to swift-heavy-ion irradiation induces giant plastic deformation ...
The complex interplay of several physical processes in altering the surface and subsurface compositi...
The complex interplay of several physical processes in altering the surface and subsurface compositi...
In this work, influence of $^{238}$U swift (5.9 MeV/u) heavy ions on the as-prepared Fe–Cu–Nb–Si–B m...
The results on the study of surface structure of solids, like metals, metal alloys, amorphous metal ...
We are trying to make new functional materials by the modification of local structure and character ...
NiTi was irradiated with Ni ions to study the rate of amorphization as a function of temperature and...
Room temperature ion implantation of 40 keV phosphorus ions into crystalline (f.c.c.) nickel resulte...
Modifications of structural arrangements including relaxation processes were investigated in swift-h...
Modifications of structural arrangements including relaxation processes were investigated in swift-h...
It was proposed that amorphous alloys may be more resistant to radiation damage than crystalline met...
Electronic excitation (dE/dx)e due to swift-heavy-ion irradiation induces giant plastic deformation ...
Electronic excitation (dE/dx)e due to swift-heavy-ion irradiation induces giant plastic deformation ...
Crystalline Ni3B samples have been irradiated with GeV heavy ions (from 16O to 238U) at low temper...
Crystalline Ni3B samples have been irradiated with GeV heavy ions (from 16O to 238U) at low temper...
Electronic excitation (dE/dx)e due to swift-heavy-ion irradiation induces giant plastic deformation ...
The complex interplay of several physical processes in altering the surface and subsurface compositi...
The complex interplay of several physical processes in altering the surface and subsurface compositi...
In this work, influence of $^{238}$U swift (5.9 MeV/u) heavy ions on the as-prepared Fe–Cu–Nb–Si–B m...