Add to ORKGWe have compared the mixing rate of several 5d-4d metal bilayers which form ideal solutions. We observe a strong correlation between the mixing rate and the average cohesive energy of each bilayer. A model based on the thermal spike concept is proposed to explain this behavior. The model leads to a general expression describing mixing rates in metallic bilayers
Direct energy deposition (DED) is one of the additive manufacturing technologies where the metal pow...
The amount of atomic mixing in amorphous SiO2 and Si is studied by measuring the redistribution of t...
The cohesive or atomization energy of an ionic solid is the energy required to decompose the solid i...
Ion mixing of elemental 4d-5d metallic bilayers at 77 K by 600 keV Xe + + ions has been studied to ...
A correlation between the cohesive energy of elemental solids and the characteristic temperature Tc ...
The effective interdiffusion coefficient of metallic bilayers under ion irradiation has been correla...
Ion beam mixing during 750 keV Kr+ irradiation at 80 K was measured on a series of Ag‐Pd alloys usin...
on-beam mixing was measured in immiscible Cu bilayer systems after Kr irradiation at 6 K and at 295...
We use molecular dynamics to study radiation-induced mixing between low solid solubility metals, foc...
There has been a great deal of interest in the fabrication of new materials with unique properties u...
A systematic study of ion-beam mixing of tracer impurities in thin metal films at low temperatures...
A systematic study of ion-beam mixing of tracer impurities in thin metal films at low temperatures h...
The development of thermodynamic models for liquid metal solutions is reviewed and applications of t...
Capturing segregation behavior in metal alloy nanoparticles accurately using computer simulations is...
Instruments & InstrumentationNuclear Science & TechnologyPhysics, Atomic, Molecular &...
Direct energy deposition (DED) is one of the additive manufacturing technologies where the metal pow...
The amount of atomic mixing in amorphous SiO2 and Si is studied by measuring the redistribution of t...
The cohesive or atomization energy of an ionic solid is the energy required to decompose the solid i...
Ion mixing of elemental 4d-5d metallic bilayers at 77 K by 600 keV Xe + + ions has been studied to ...
A correlation between the cohesive energy of elemental solids and the characteristic temperature Tc ...
The effective interdiffusion coefficient of metallic bilayers under ion irradiation has been correla...
Ion beam mixing during 750 keV Kr+ irradiation at 80 K was measured on a series of Ag‐Pd alloys usin...
on-beam mixing was measured in immiscible Cu bilayer systems after Kr irradiation at 6 K and at 295...
We use molecular dynamics to study radiation-induced mixing between low solid solubility metals, foc...
There has been a great deal of interest in the fabrication of new materials with unique properties u...
A systematic study of ion-beam mixing of tracer impurities in thin metal films at low temperatures...
A systematic study of ion-beam mixing of tracer impurities in thin metal films at low temperatures h...
The development of thermodynamic models for liquid metal solutions is reviewed and applications of t...
Capturing segregation behavior in metal alloy nanoparticles accurately using computer simulations is...
Instruments & InstrumentationNuclear Science & TechnologyPhysics, Atomic, Molecular &...
Direct energy deposition (DED) is one of the additive manufacturing technologies where the metal pow...
The amount of atomic mixing in amorphous SiO2 and Si is studied by measuring the redistribution of t...
The cohesive or atomization energy of an ionic solid is the energy required to decompose the solid i...