Papers accepted for publication

Tensile properties of the TNZ alloy produced as a small laboratory ingot (conditions 1 and 2) and a large-sized industrial ingot (conditions 3 and 4) after forging and heat treatment.

Effect of ingot up-scaling on microstructure and mechanical properties of an advanced intermetallic γ-TiAl based alloy

Tensile properties of the TNZ alloy produced as a small laboratory ingot (conditions 1 and 2) and a large-sized industrial ingot (conditions 3 and 4) after forging and heat treatment.
V.M. Imayev, D.M. Trofimov, R.M. Imayev, R.R. Mulyukov
 Article


Using the molecular dynamics method, a study was conducted on the influence of the mean grain size and excess energy on the melting temperature of nanocrystalline aluminum.

Influence of mean grain size and excess energy on the melting temperature of nanocrystalline aluminum

Using the molecular dynamics method, a study was conducted on the influence of the mean grain size and excess energy on the melting temperature of nanocrystalline aluminum.
G.M. Poletaev, A.A. Sitnikov, Y.V. Bebikhov, A.S. Semenov
 Article

This figure illustrates the fabrication and processing scheme of model steel walls produced using different WAAM modes (standard GMAW and coldArc). It also presents their mechanical properties, including microhardness and tensile behavior, highlighting the effects of heat treatment.

The influence of post-thermal treatment on the structure and impact toughness of bulk parts made from heat-resistant steel produced by wire arc additive manufacturing technology

This figure illustrates the fabrication and processing scheme of model steel walls produced using different WAAM modes (standard GMAW and coldArc). It also presents their mechanical properties, including microhardness and tensile behavior, highlighting the effects of heat treatment.
I.V. Vlasov, A.I. Gordienko, A.V. Eremin, V.M. Semenchuk, A.E. Kuznetsova
 Article
Journal section: Structure design and analysis

The figure shows regression analysis of the mass gain curves and the rate of mass gain depending on oxidation time obtained for samples of the TNM, TNZ and TNZ+ alloys in the near duplex (1 and 2) and near lamellar (3 and 4) conditions subjected to oxidation at 800°C.

The influence of alloying and microstructure on oxidation resistance of β-solidifying γ-TiAl alloys

The figure shows regression analysis of the mass gain curves and the rate of mass gain depending on oxidation time obtained for samples of the TNM, TNZ and TNZ+ alloys in the near duplex (1 and 2) and near lamellar (3 and 4) conditions subjected to oxidation at 800°C.
Д.М. Трофимов, В.М. Имаев, Р.М. Имаев
 Article