Tetiana Zaporozhets
Tetiana Zaporozhets
Cherkasy National University
Verified email at - Homepage
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Diffusion-controlled solid state reactions: in alloys, thin films and nanosystems
AM Gusak, TV Zaporozhets, YO Lyashenko, SV Kornienko, MO Pasichnyy, ...
John Wiley & Sons, 2010
Kinetic analysis of the instability of hollow nanoparticles
AM Gusak, TV Zaporozhets, KN Tu, U Gösele
Philosophical Magazine 85 (36), 4445-4464, 2005
Three-dimensional simulation of void migration at the interface between thin metallic film and dielectric under electromigration
TV Zaporozhets, AM Gusak, KN Tu, SG Mhaisalkar
Journal of applied physics 98 (10), 2005
Hollow nanoshell formation and collapse in binary solid solutions with large range of solubility
AM Gusak, TV Zaporozhets
Journal of physics: condensed matter 21 (41), 415303, 2009
Phase competition in solid-state reactive diffusion revisitedStochastic kinetic mean-field approach
A Gusak, T Zaporozhets, N Storozhuk
The Journal of chemical physics 150 (17), 2019
Modeling of SHS-Reaction Steady-State Regime in Nanofoils (Phenomenological Model): 1. Single-Stage Reaction
TV Zaporozhets, AM Gusak, AI Ustinov
Adv. Electrometall 1 (1), 40-46, 2010
Inverse problem for SHS in multilayer nanofoils: Prediction of process parameters for single-stage SHS reaction
TV Zaporozhets, AM Gusak, YD Korol, AI Ustinov
International Journal of Self-Propagating High-Temperature Synthesis 22, 222-231, 2013
SHS reactions in nanosized multilayers: Analytical model versus numerical one
TV Zaporozhets, AM Gusak, AI Ustinov
International Journal of Self-Propagating High-Temperature Synthesis 19, 227-236, 2010
The effect of introducing stochasticity to kinetic mean-field calculations: Comparison with lattice kinetic Monte Carlo in case of regular solid solutions
TV Zaporozhets, A Taranovskyy, G Jáger, AM Gusak, Z Erdélyi, JJ Tomán
Computational Materials Science 171, 109251, 2020
Martins Kinetic Mean-Field Model RevisitedFrequency Noise Approach versus Monte Carlo
AM Gusak, TV Zaporozhets
40 (14), 1415-1435, 2018
Thermodynamics of void nucleation in nanoparticles
AM Gusak, F Hodaj, TV Zaporozhets
Philosophical magazine letters 91 (12), 741-750, 2011
Models of Solid State Reactions
AM Gusak, OO Bogatyrev, TV Zaporozhets, AO Kovalchuk, SV Kornienko, ...
Cherkasy National University, Cherkasy, 2004
Modeling of Steady SHS Reaction in Nanofoils: 2. Comparative analysis of single-and double-stage reactions
TV Zaporozhets, AM Gusak, AI Ustinov
Adv. Electrometall 3, 38-47, 2012
Conditions of propagation of the SHS reaction front in nanolayered foils in contact with heat-conducting material
TV Zaporozhets, AM Gusak, AI Ustinov
The Paton Welding J 8, 37-41, 2011
Organization of crisis management in public administration
OL Korolchuk, IM Perestyuk, TV Zaporozhets, NO Vasiuk, YA Kulhinskyi
Evolution of pore in nanoshellscompetition of direct and reverse Kirkindale effect, effects of Frenkel and Gibbs-Tomphson (phenomenological description and computer simulation)
TV Zaporozhets, AM Gusak, ON Podolyan
Usp. Fiz. Met 13, 1-70, 2012
Study of Electromigration Induced Void Nucleation, Growth, and Movement in Cu Interconnects
AV Vairagar, SG Mhaisalkar, A Krishnamoorthy, KN Tu, AM Gusak, ...
AIP Conference Proceedings 741 (1), 135-147, 2004
The Inverse-Problem Approach for Forecasting Characteristics of a Self-Propagating High-Temperature Synthesis in Multilayer Foils in View of Competitive Formation of Phases
TV Zaporozhets, YD Korol
Metallofiz. Noveishie Tekhnol 38, 1541-1560, 2016
Calculation of thermal fields in multiphase 3D system under nonstationary conditions of its heating
VM Bezpalchuk, TV Zaporozhets, MV Kravchuk
Visnyk Cherkaskogo Un-tu 16 (349), 38-49, 2015
Analytical modeling of reservoir effect on electromigration in Cu interconnects
Z Gan, AM Gusak, W Shao, Z Chen, SG Mhaisalkar, T Zaporozhets, KN Tu
Journal of materials research 22 (1), 152-156, 2007
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