Mechanics of Solids
A Journal of Russian Academy of Sciences

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Issues > Archive of Issues > 2022-3 > pp.553-561

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Total articles in the database:		11262
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In English (Mech. Solids):		3251

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A.V. Redkov and S.A. Kukushkin, "Influence of Adatoms on the Vacancy Growth of Faceted Pores in a Crystal under Mechanical Load," Mech. Solids. 57 (3), 553-561 (2022)
Year	2022	Volume	57	Number	3	Pages	553-561
DOI	10.3103/S0025654422030190
Title	Influence of Adatoms on the Vacancy Growth of Faceted Pores in a Crystal under Mechanical Load
Author(s)	A.V. Redkov (Institute of Problems of Mechanical Engineering Russian Academy of Sciences, St. Petersburg, 199178, Russia, avredkov@gmail.com) S.A. Kukushkin (Institute of Problems of Mechanical Engineering Russian Academy of Sciences, St. Petersburg, 199178, Russia)
Abstract	The process of growth of faceted pores in a crystal under the influence of an applied mechanical load is considered in the framework of the classical Barton-Cabrera-Frank model, taking into account the presence of adatoms on the surface of pore faces. The growth is caused by the flow of excess vacancies from the bulk of the crystal, which arise due to tensile stresses. The recombination of advacancies and adatoms on the surface of pores is taken into account, and it is shown that as a result, a flow of adatoms from steps and fissures to the terrace can occur. This additional flow contributes to the growth of pores under load and, under certain conditions, can be the predominant mechanism of mass transfer, which must be taken into account for a correct assessment of the growth rate and lifetime of the crystal under load before failure. Expressions are obtained for the dependence of the pore growth rate on the applied mechanical load, the diffusion coefficients of vacancies and adatoms, and the rate of their recombination.
Keywords	pores, growth, crystal, mechanical load, destruction, adatoms
Received	15 December 2021	Revised	16 December 2021	Accepted	17 December 2021
Link to Fulltext	https://link.springer.com/article/10.3103/S0025654422030190
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