The Features of Diffusion and Mechanical Waves Interaction at the Initial Stage of Metal Surface Treatment by Particle Beam under Nonisothermal Conditions

Elena S. Parfenova; Anna G. Knyazeva

doi:10.4028/www.scientific.net/KEM.712.99

Paper Titles

Structural and Phase Transformations in Ti-B₄C System Formed when Melting the Composition Film/Substrate by an Intense Electron Beam
p.76

Structural Phase Transformations of the Surface Layer of SiC Ceramics Irradiated by Intense Electron Beam
p.81

The Research of Diamond Coatings Morphology Evolution under the Action of Reactive Ion Etching in Perpendicular Direction
p.87

The Influence of Plasma Composition on Mechanical Stresses in Substrate-Coating System
p.93

The Features of Diffusion and Mechanical Waves Interaction at the Initial Stage of Metal Surface Treatment by Particle Beam under Nonisothermal Conditions
p.99

Numerical Simulation of Temperature Field in Steel under Action of Electron Beam Heating Source
p.105

Textural Characteristics of Products Obtained by Electrochemical Oxidation of Copper and Cadmium Using Alternating Current
p.112

Electrolytic Behavior Silver Microphases and Nanophases on the Graphite Electrode Surface
p.117

Cascade Probability Method and its Relationship with Boltzmann Equations
p.123

HomeKey Engineering MaterialsKey Engineering Materials Vol. 712The Features of Diffusion and Mechanical Waves...

The Features of Diffusion and Mechanical Waves Interaction at the Initial Stage of Metal Surface Treatment by Particle Beam under Nonisothermal Conditions

Abstract:

The paper presents a mathematical model of the initial stage of ion implantation into the metal surface. The model takes into account the finiteness of relaxation times of heat and mass flows. The relation of introduced impurity concentration, stresses and strains arising as a result of particles impact to the substrate surface and substrate temperature by varying model parameters is numerically investigated.

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Periodical:

Key Engineering Materials (Volume 712)

Pages:

99-104

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.712.99

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Online since:

September 2016

Authors:

Elena S. Parfenova*, Anna G. Knyazeva

Keywords:

Deformation, Diffusion, Impurity Concentration, Ion Implantation, Mathematical Model, Stress

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