Mechanics of Solids
A Journal of Russian Academy of Sciences

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Issues > Archive of Issues > 2025-3 > pp.1509-1522

Archive of Issues

Total articles in the database:		13217
In Russian (Изв. РАН. МТТ):		8152
In English (Mech. Solids):		5065

<< Previous article \| Volume 60, Issue 3 / 2025 \| Next article >>
A.I. Epishin and D.S. Lisovenko, "Modeling of the Process of Hot Isostatic Pressing of Single Crystals of Nickel-Based Superalloy Taking into Account Plastic Flow and Vacancy Diffusion," Mech. Solids. 60 (3), 1509-1522 (2025)
Year	2025	Volume	60	Number	3	Pages	1509-1522
DOI	10.1134/S0025654425600746
Title	Modeling of the Process of Hot Isostatic Pressing of Single Crystals of Nickel-Based Superalloy Taking into Account Plastic Flow and Vacancy Diffusion
Author(s)	A.I. Epishin (Merzhanov Institute of Structural Macrokinetics and Materials Science of RAS, Chernogolovka, 142432 Russia, a.epishin2021@gmail.com) D.S. Lisovenko (Ishlinsky Institute for Problems in Mechanics RAS, Moscow, 119526 Russia, lisovenk@ipmnet.ru)
Abstract	A complex model of pore annihilation during hot isostatic pressing (HIP), which takes into account the simultaneous action of the mechanisms of material plastic flow and diffusive pore dissolution due to the emission of vacancies by the pore surface, has been proposed. The obtained mathematical equations are applied to analyze the kinetics of pore annihilation in single crystals of the nickel-based superalloy CMSX-4 during HIP used for this alloy in industry. It follows from the analysis that both mechanisms (plastic flow and vacancy diffusion) make comparable contributions to the reduction of pore volume under these conditions. As the HIP pressure increases, the contribution of plastic flow increases, while the contribution of vacancy diffusion decreases. Large pores shrink in volume mainly due to the mechanism of plastic flow, however, at the final stage of pore closure, the mechanism of vacancy diffusion is more active. To ensure reliable pore healing by the vacancy mechanism, HIP should be carried out at a moderate argon pressure in the HIP plant.
Keywords	single crystals of nickel-based superalloys, porosity, hot isostatic pressing, plastic flow, vacancy diffusion
Received	09 February 2025	Revised	25 February 2025	Accepted	26 February 2025
Link to Fulltext	https://link.springer.com/article/10.1134/S0025654425600746
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