This paper investigates microstructure of a composite material dispersed-hardened by particles of silicon carbide based on a titanium alloy. The study determined the shapes and sizes of the silicon carbide particles, as well as the characteristics of the interface formation during direct laser deposition. The experimental data obtained enabled the creation of a representative volume element that accurately reflects the real microstructure of the material. This, in turn, serves as the foundation for predicting the material's effective physical, mechanical, and thermophysical properties, thereby opening new avenues for its application across various fields of industry and science.

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Features of Mathematical Modeling of Dispersion-Strengthened Composite Material Made by Direct Laser Deposition Technology

  • Ilya S. Magidov,
  • Konstantin V. Mikhaylovskiy,
  • Svetlana A. Shalnova,
  • Olga G. Klimova-Korsmik

摘要

This paper investigates microstructure of a composite material dispersed-hardened by particles of silicon carbide based on a titanium alloy. The study determined the shapes and sizes of the silicon carbide particles, as well as the characteristics of the interface formation during direct laser deposition. The experimental data obtained enabled the creation of a representative volume element that accurately reflects the real microstructure of the material. This, in turn, serves as the foundation for predicting the material's effective physical, mechanical, and thermophysical properties, thereby opening new avenues for its application across various fields of industry and science.