Publikationer av Michael Vynnycky
Refereegranskade
Artiklar
[1]
C. Frosin et al., "Exploring the potential of muon radiography for blast furnace assessments: advancements in non-invasive imaging and structural analysis," Journal of Instrumentation, vol. 19, no. 2, 2024.
[2]
M. Vynnycky, B. V. Rangavittal och B. Glaser, "An asymptotic model for gas-solid flow in a countercurrent moving bed reactor," SIAM Journal on Applied Mathematics, vol. 83, no. 2, s. 882-908, 2023.
[3]
M. Vynnycky, A. Safavi Nick och M. Assuncao, "Fast computation of the Lorentz force induced by longitudinal electromagnetic stirring," Journal of Computational and Applied Mathematics, vol. 416, 2022.
[4]
M. Vynnycky, "On the local solute redistribution equation of macrosegregation, remelting and the formation of channel segregates," International Journal of Heat and Mass Transfer, vol. 190, 2022.
[5]
A. Safavi Nick, M. Vynnycky och P. G. Jönsson, "Analysis of a model for longitudinal electromagnetic stirring in the continuous casting of steel," International journal of applied electromagnetics and mechanics, vol. 66, no. 1, s. 35-61, 2021.
[6]
S. Kohlstädt et al., "On determining the critical velocity in the shot sleeve of a high-pressure die casting machine using open source cfd," Fluids, vol. 6, no. 11, 2021.
[7]
S. Kohlstädt, M. Vynnycky och S. Goeke, "On the CFD Modelling of Slamming of the Metal Melt in High-Pressure Die Casting Involving Lost Cores," Metals, vol. 11, no. 1, 2021.
[8]
G. M. M. Reddy et al., "A Compact FEM Implementation for Parabolic Integro-Differential Equations in 2D," Algorithms, vol. 13, no. 10, 2020.
[9]
K. M. Devine et al., "Analysis of a model for the formation of fold-type oscillation marks in the continuous casting of steel," IMA Journal of Applied Mathematics, vol. 85, no. 3, s. 385-420, 2020.
[10]
A. Safavi Nick och M. Vynnycky, "On longitudinal electromagnetic stirringing the continuous casting of steel blooms," Journal of Engineering Mathematics, 2020.
[11]
S. Kohlstädt, M. Vynnycky och J. Jäckel, "Towards the modelling of fluid-structure interactive lost core deformation in high-pressure die casting," Applied Mathematical Modelling, vol. 80, s. 319-333, 2020.
[12]
G. M. M. Reddy, M. Vynnycky och J. A. Cuminato, "An efficient adaptive boundary algorithm to reconstruct Neumann boundary data in the MFS for the inverse Stefan problem," Journal of Computational and Applied Mathematics, vol. 349, s. 21-40, 2019.
[13]
S. McKee, M. Vynnycky och J. A. Cuminato, "An elementary diffusion problem, Laplace transforms and novel mathematical identities," Journal of Computational and Applied Mathematics, vol. 353, s. 113-119, 2019.
[14]
M. Vynnycky et al., "Asymptotic analysis of drug dissolution in two layers having widely differing diffusivities," IMA Journal of Applied Mathematics, vol. 84, no. 3, s. 533-554, 2019.
[15]
S. Kohlstädt et al., "Comparative RANS turbulence modelling of lost salt core viability in high pressure die casting," Progress in Computational Fluid Dynamics, An International Journal, vol. 19, no. 5, s. 316-327, 2019.
[16]
[17]
M. Vynnycky och J. Lacaze, "On the modelling of joint formation in dissolutive brazing processes," Journal of Engineering Mathematics, vol. 116, no. 1, s. 73-99, 2019.
[18]
M. Vynnycky och M. Assuncao, "THE VANADIUM REDOX FLOW BATTERY : AN ASYMPTOTIC PERSPECTIVE," SIAM Journal on Applied Mathematics, vol. 79, no. 4, s. 1147-1172, 2019.
[19]
M. Vynnycky, S. Saleem och H. Fredriksson, "An asymptotic approach to solidification shrinkage-induced macrosegregation in the continuous casting of binary alloys," Applied Mathematical Modelling, vol. 54, s. 605-626, 2018.
[20]
M. Vynnycky, "Applied mathematical modelling of continuous casting processes : A review," Metals, vol. 8, no. 11, 2018.
[21]
S. Kohlstaedt, M. Vynnycky och A. Gebauer-Teichmann, "Experimental and numerical CHT-investigations of cooling structures formed by lost cores in cast housings for optimal heat transfer," Heat and Mass Transfer, vol. 54, no. 11, s. 3445-3459, 2018.
[22]
J. Lacaze et al., "Numerical Simulation of Brazing Aluminium Alloys with Al-Si Alloys," Transactions of the Indian Institute of Metals, vol. 71, no. 11, s. 2623-2629, 2018.
[23]
M. Vynnycky, "On an Anomaly in the Modeling of Electromagnetic Stirring in Continuous Casting," Metallurgical and materials transactions. B, process metallurgy and materials processing science, vol. 49, no. 1, s. 399-410, 2018.
[24]
G. M. M. Reddy, M. Vynnycky och J. A. Cuminato, "On efficient reconstruction of boundary data with optimal placement of the source points in the MFS : application to inverse Stefan problems," Inverse Problems in Science and Engineering, vol. 26, no. 9, s. 1249-1279, 2018.
[25]
M. Vynnycky och G. M. M. Reddy, "On the Effect of Control-Point Spacing on the Multisolution Phenomenon in the P3P Problem," Mathematical problems in engineering (Print), 2018.
[26]
M. Vynnycky och M. Zambrano, "Towards a "moving-point" formulation for the modelling of oscillation-mark formation in the continuous casting of steel," Applied Mathematical Modelling, vol. 63, s. 243-265, 2018.
[27]
M. Vynnycky och S. Saleem, "On the explicit resolution of the mushy zone in the modelling of the continuous casting of alloys," Applied Mathematical Modelling, vol. 50, s. 544-568, 2017.
[28]
M. Vynnycky et al., "On the formation of fold-type oscillation marks in the continuous casting of steel," Royal Society Open Science, vol. 4, no. 6, 2017.
[29]
B. J. Florio et al., "On the interactive effects of mould taper and superheat on air gaps in continuous casting," Acta Mechanica, vol. 228, no. 1, s. 233-254, 2017.
[30]
S. Saleem, M. Vynnycky och H. Fredriksson, "The Influence of Peritectic Reaction/Transformation on Crack Susceptibility in the Continuous Casting of Steels," Metallurgical and materials transactions. B, process metallurgy and materials processing science, vol. 48, no. 3, s. 1625-1635, 2017.
[31]
S. L. Mitchell och M. Vynnycky, "Verified reduction of a model for a continuous casting process," Applied Mathematical Modelling, vol. 48, s. 476-490, 2017.
[32]
S. Saleem, M. Vynnycky och H. Fredriksson, "A Study of the Oscillation Marks’ Characteristics of Continuously Cast Incoloy Alloy 825 Blooms," Metallurgical and Materials Transactions. A, vol. 47, no. 8, s. 4068-4079, 2016.
[33]
A. S. Nick, M. Vynnycky och H. Fredriksson, "A Theoretical Analysis of the Interaction Between Pores and Inclusions During the Continuous Casting of Steel," Metallurgical and Materials Transactions. A, vol. 47, no. 6, s. 2985-2999, 2016.
[34]
M. F. Tome et al., "A finite difference technique for solving a time strain separable K-BKZ constitutive equation for two-dimensional moving free surface flows," Journal of Computational Physics, vol. 311, s. 114-141, 2016.
[35]
M. Vynnycky, "An asymptotic model for the primary drying stage of vial lyophilization," Journal of Engineering Mathematics, vol. 96, no. 1, s. 175-200, 2016.
[36]
B. Redouane et al., "Experimental, statistical and numerical studies of the continuous casting process based on temperature profiles - part I," Journal of Chemical Technology and Metallurgy, vol. 51, no. 1, s. 121-132, 2016.
[37]
S. L. Mitchell och M. Vynnycky, "On the accurate numerical solution of a two-phase Stefan problem with phase formation and depletion," Journal of Computational and Applied Mathematics, vol. 300, s. 259-274, 2016.
[38]
I. W. Stewart et al., "Boundary layers in pressure-driven flow in smectic a liquid crystals," SIAM Journal on Applied Mathematics, vol. 75, no. 4, s. 1817-1851, 2015.
[39]
M. Vynnycky och S. Kimura, "Can natural convection alone explain the Mpemba effect?," International Journal of Heat and Mass Transfer, vol. 80, s. 243-255, 2015.
[40]
M. Vynnycky och K. Kanev, "Mathematical Analysis of the Multisolution Phenomenon in the P3P Problem," Journal of Mathematical Imaging and Vision, vol. 51, no. 2, s. 326-337, 2015.
[41]
B. J. Florio et al., "Mould-taper asymptotics and air gap formation in continuous casting," Applied Mathematics and Computation, vol. 268, s. 1122-1139, 2015.
[42]
M. Vynnycky och A. D. Gordon, "Non-isothermal hydrophobicity-dependent two-phase flow in the porous cathode gas diffusion layer of a polymer electrolyte fuel cell," Journal of Engineering Mathematics, vol. 92, no. 1, s. 123-146, 2015.
[43]
T. S. Khaleque et al., "Numerical studies of thermal convection with temperature-and pressure-dependent viscosity at extreme viscosity contrasts," Physics of fluids, vol. 27, no. 7, 2015.
[44]
M. Vynnycky, M. Zambrano och J. A. Cuminato, "On the avoidance of ripple marks on cast metal surfaces," International Journal of Heat and Mass Transfer, vol. 86, s. 43-54, 2015.
[45]
M. Vynnycky och S. L. Mitchell, "On the numerical solution of a Stefan problem with finite extinction time," Journal of Computational and Applied Mathematics, vol. 276, s. 98-109, 2015.
[46]
A. C. Fowler, A. C. Rust och M. Vynnycky, "The formation of vesicular cylinders in pahoehoe lava flows," Geophysical and Astrophysical Fluid Dynamics, vol. 109, no. 1, s. 39-61, 2015.
[47]
S. L. Mitchell och M. Vynnycky, "The oxygen diffusion problem : Analysis and numerical solution," Applied Mathematical Modelling, vol. 39, no. 9, s. 2763-2776, 2015.
[48]
A. K. Sharma et al., "Verified reduction of dimensionality for an all-vanadium redox flow battery model," Journal of Power Sources, vol. 279, s. 345-350, 2015.
[49]
A. K. Sharma et al., "The quasi-steady state of all-vanadium redox flow batteries : A scale analysis," Electrochimica Acta, vol. 147, s. 657-662, 2014.
[50]
S. Brown et al., "Impedance as a Tool for Investigating Aging in Lithium-Ion Porous Electrodes : II. Positive Electrode Examination," Journal of the Electrochemical Society, vol. 155, no. 4, s. A320-A338, 2008.
[51]
N. Mellgren et al., "Impedance as a Tool for Investigating Aging in Lithium-Ion Porous Electrodes : I. Physically Based Electrochemical Model," Journal of the Electrochemical Society, vol. 155, no. 4, s. A304-A319, 2008.
[52]
M. Vynnycky och S. Kimura, "An analytical and numerical study of coupled transient natural convection and solidification in a rectangular enclosure," International Journal of Heat and Mass Transfer, vol. 50, no. 25-26, s. 5204-5214, 2007.
[53]
M. Vynnycky, "On the modelling of two-phase flow in the cathode gas diffusion layer of a polymer electrolyte fuel cell," Applied Mathematics and Computation, vol. 189, no. 2, s. 1560-1575, 2007.
[54]
E. Birgersson och M. Vynnycky, "A quantitative study of the effect of flow-distributor geometry in the cathode of a PEM fuel cell," Journal of Power Sources, vol. 153, no. 1, s. 76-88, 2006.
[55]
N. Ipek et al., "Numerical and experimental study of the effect of gas evolution in electrolytic pickling," Journal of Applied Electrochemistry, vol. 36, no. 12, s. 1367-1379, 2006.
[56]
J. Åberg et al., "An on-site experimental heat flux study and its interpretation in a FEMLAB finite element simulation of continuous casting of copper in the South-Wire process," Transactions of the Indian Institute of Metals, vol. 58, no. 4, s. 509-515, 2005.
[57]
E. Birgersson, M. Noponen och M. Vynnycky, "Analysis of a two-phase non-isothermal model for a PEFC," Journal of the Electrochemical Society, vol. 152, no. 5, s. A1021-A1034, 2005.
[58]
M. Noponen et al., "A two-phase non-isothermal PEFC model : Theory and validation," Fuel Cells, vol. 4, no. 4, s. 365-377, 2004.
[59]
E. Birgersson et al., "Reduced two-phase model for analysis of the anode of a DMFC," Journal of the Electrochemical Society, vol. 151, no. 12, s. A2157-A2172, 2004.
[60]
J. Nordlund et al., "The design and usage of a visual direct methanol fuel cell," Journal of Applied Electrochemistry, vol. 34, no. 8, s. 763-770, 2004.
Konferensbidrag
[61]
S. Saleem, M. Vynnycky och H. Fredriksson, "Formation of the tin rich layer and inverse-segregation in phosphor bronzes during continuous casting," i Advances in the Science and Engineering of Casting Solidification : An MPMD Symposium Honoring Doru Michael Stefanescu, 2015, s. 15-22.
[62]
J. Åberg, M. Vynnycky och H. Fredriksson, "Modelling of Thermal Stresses in Industrial Continuous Casting Processes," i Proceedings of the Femlab Conference, Stockholm, 2005.
[63]
G. Shugai, C. Holmqvist och M. Vynnycky, "Analysis of a model for twin-wire forming," i PROGRESS IN INDUSTRIAL MATHEMATICS AT ECMI 2002, 2004, s. 369-373.
Icke refereegranskade
Rapporter
[64]
J. Åberg, M. Vynnycky och B. Widell, "Development of a finite element model for study of the developing stress and strain in a solidifying shell," , TRITA-MG, 2006:06, 2006.
Övriga
[65]
S. Saleem, M. Vynnycky och H. Fredriksson, "Effect of casting parameters on the formation of oscillation marks during continuous casting," (Manuskript).
[66]
A. S. Nick, V. Michael och H. Fredriksson, "Pores and clustering of inclusions in the continuous casting of steel : Precipitation," (Manuskript).
[67]
N. Ipek, A. Cornell och M. Vynnycky, "Single- and two-phase modelling of the electrochemical pickling of steel," (Manuskript).
[68]
M. Vynnycky, S. Saleem och H. Fredriksson, "Towards an asymptotic framework for solidification shrinkage-induced macrosegregation in the continuous casting of binary alloys," (Manuskript).
Senaste synkning med DiVA:
2024-04-21 03:41:51