Add to ORKGUnderstanding of metal oxidation is very critical to corrosion control, catalysis synthesis, and advanced materials engineering. Metal oxidation is a very complex phenomenon, with many different processes which are coupled and involved from the onset of reaction. In this work, the initial stage of oxidation on titanium surface was investigated in atomic scale by molecular dynamics (MD) simulations using a reactive force field (ReaxFF). We show that oxygen transport is the dominant process during the initial oxidation. Our simulation also demonstrate that a compressive stress was generated in the oxide layer which blocked the oxygen transport perpendicular to the Titanium (0001) surface and further prevented oxidation in the deeper layers. T...
AbstractThis manuscript provides a new coupled thermo-chemo-mechanical computational model for titan...
Titanium alloys, due to their high tensile strength, low density, and excellent corrosion resistance...
We present our ab initio molecular dynamics (MD) study of the effect of Si on the oxidation of α-Ti(...
We carry out first principles computations to understand mechanisms of oxygen accommodation on titan...
The formation of a native oxide layer on the Ti(0001) surface is studied by means of FPMD simulation...
The formation of ultrathin oxide layers on metal surfaces is a non-thermally-activated process which...
In this work, advanced first-principles molecular dynamics (FPMD) based on density-functional theory...
The kinetics and mechanisms of oxidation of titanium wire were assessed using a large test matrix in...
The reactions of atomically clean, titanium film surfaces with oxygen, deuterium, and water have bee...
The object of research is the analytical description of the phenomena in the near-surface layer, whi...
Surface texturing by direct laser ablation creates micro- and nano-scale roughness on materials, res...
The object of research is the analytical description of the phenomena in the near-surface layer, whi...
The excellent combination of light-weight and good mechanical properties makes titanium alloys attra...
In order to investigate the surface properties of metals in a realistic fashion it is crucial to tak...
We perform first-principles calculations to investigate the initial stages of titanium nanoparticle ...
AbstractThis manuscript provides a new coupled thermo-chemo-mechanical computational model for titan...
Titanium alloys, due to their high tensile strength, low density, and excellent corrosion resistance...
We present our ab initio molecular dynamics (MD) study of the effect of Si on the oxidation of α-Ti(...
We carry out first principles computations to understand mechanisms of oxygen accommodation on titan...
The formation of a native oxide layer on the Ti(0001) surface is studied by means of FPMD simulation...
The formation of ultrathin oxide layers on metal surfaces is a non-thermally-activated process which...
In this work, advanced first-principles molecular dynamics (FPMD) based on density-functional theory...
The kinetics and mechanisms of oxidation of titanium wire were assessed using a large test matrix in...
The reactions of atomically clean, titanium film surfaces with oxygen, deuterium, and water have bee...
The object of research is the analytical description of the phenomena in the near-surface layer, whi...
Surface texturing by direct laser ablation creates micro- and nano-scale roughness on materials, res...
The object of research is the analytical description of the phenomena in the near-surface layer, whi...
The excellent combination of light-weight and good mechanical properties makes titanium alloys attra...
In order to investigate the surface properties of metals in a realistic fashion it is crucial to tak...
We perform first-principles calculations to investigate the initial stages of titanium nanoparticle ...
AbstractThis manuscript provides a new coupled thermo-chemo-mechanical computational model for titan...
Titanium alloys, due to their high tensile strength, low density, and excellent corrosion resistance...
We present our ab initio molecular dynamics (MD) study of the effect of Si on the oxidation of α-Ti(...