Selection Criterion of Stable Dendritic Growth for a Ternary (Multicomponent) Melt with a Forced Convective Flow

A Phase-field model study of two-dimensional dendritc growth in thermal solidification processes

Martínez González, Gustavo

June 2008

A phasefield model in two dimensions with both surface energy and kinetic anisotropies is used to si...

Modeling of dendrite growth from undercooled nickel melt: Sharp interface model versus enthalpy method

Kao, A.
Toropova, L. V.
Alexandrov, D. V.
Demange, G.
Galenko, P. K.

January 2020

The dendritic growth of pure materials in undercooled melts is critical to understanding the fundame...

Dendritic Growth Velocity and Diffusive Speed in Solidification of Undercooled Dilute Ni-Zr Melts

Schwarz, Mikael
Aziz, Michael
Arnold, Craig B.
Herlach, Dieter M.

January 1997

During rapid solidification of undercooled melts deviations from local equilibrium occur at the soli...

Selection Criterion of Stable Dendritic Growth for a Ternary (Multicomponent) Melt with a Forced Convective Flow

Alexandrov, Dmitri V.
Osipov, Sergei I.
Galenko, Peter K.
Toropova, Liubov V.

September 2022

A stable growth mode of a single dendritic crystal solidifying in an undercooled ternary (multicompo...

Dendritic solidification in undercooled Ni-Zr-Al melts: Experiments and modeling

Galenko, Peter
Reutzel, Sven
Herlach, Dieter, M.
Fries, S. G.
Steinbach, I.
Apel, M.

January 2009

The kinetics of dendritic solidification in a ternary Ni98Zr1Al1 alloy is investigated experimentall...

A Stable Dendritic Growth with Forced Convection: A Test of Theory Using Enthalpy-Based Modeling Methods

Kao, A.
Toropova, L.,
Krastins, I.
Demange, G.
Alexandrov, D.,
Galenko, P.,

August 2020

International audienceThe theory of stable dendritic growth within a forced convective flow field is...

A Stable Mode of Dendritic Growth in Cases of Conductive and Convective Heat and Mass Transfer

Liubov V. Toropova
Peter K. Galenko
Dmitri V. Alexandrov

July 2022

In this paper, we develop a theory of stable dendritic growth in undercooled melts in the presence o...

Dendritic growth with fluid flow in pure materials

Jun-ho Jeong
Jonathan A. Dantzig
Nigel Goldenfeld

January 2003

We study the growth of a single dendrite from a small initial seed in an undercooled melt in the pre...

An enthalpy-based model of dendritic growth in a convecting binary alloy melt

Bhattacharya, Anirban
Dutta, Pradip

January 2013

Purpose-In the present work, a numerical method, based on the well established enthalpy technique, i...

Phase field simulation of binary alloy dendrite growth under thermal- and forced-flow fields: An implementation of the parallel-multigrid approach

Guo, Zhipeng
Mi, J.
Xiong, S.
Grant, P. S.

May 2013

Dendrite growth and morphology evolution during solidification have been studied using a phase field...

Towards the Stable Evolution of Dendrites in the Case of Intense Convection in the Melt

Alexandrov, D. V.
Galenko, P. K.

January 2021

The solid-phase pattern in the form of a dendrite is one of the frequently met structures produced f...

Selection criterion for the growing dendritic tip in a non-isothermal binary system under forced convective flow

Alexandrov, Dimitri
Galenko, Peter
Herlach, Dieter

May 2010

A free dendrite growth during solidification into external forced flow is analyzed using a sharp int...

An equivalent undercooling model to account for flow effect on binary alloy dendrite growth rate

Bhattacharya, Anirban
Karagadde, Shyamprasad
Dutta, Pradip

January 2013

A theoretical analysis is carried out to observe the influence of important flow parameters such as ...

Modeling of dendrite growth from undercooled nickel melt: sharp interface model versus enthalpy method

Kao, A
Toropova, L
Alexandrov, D
Demange, Gilles
Galenko, P

May 2020

International audienceThe dendritic growth of pure materials in undercooled melts is critical to und...

Effect of tiny amount of impurity and convective transport on dendrite growth kinetics

Oleg V. Kazak
Dmitri V. Alexandrov
Peter K. Galenko

February 2020

Using the developed sharp-interface model of solidification we quantitatively estimate influence of ...

A Phase-field model study of two-dimensional dendritc growth in thermal solidification processes

Martínez González, Gustavo

June 2008

A phasefield model in two dimensions with both surface energy and kinetic anisotropies is used to si...

Modeling of dendrite growth from undercooled nickel melt: Sharp interface model versus enthalpy method

Kao, A.
Toropova, L. V.
Alexandrov, D. V.
Demange, G.
Galenko, P. K.

January 2020

The dendritic growth of pure materials in undercooled melts is critical to understanding the fundame...

Dendritic Growth Velocity and Diffusive Speed in Solidification of Undercooled Dilute Ni-Zr Melts

Schwarz, Mikael
Aziz, Michael
Arnold, Craig B.
Herlach, Dieter M.

January 1997

During rapid solidification of undercooled melts deviations from local equilibrium occur at the soli...

Selection Criterion of Stable Dendritic Growth for a Ternary (Multicomponent) Melt with a Forced Convective Flow

Alexandrov, Dmitri V.
Osipov, Sergei I.
Galenko, Peter K.
Toropova, Liubov V.

September 2022

A stable growth mode of a single dendritic crystal solidifying in an undercooled ternary (multicompo...

Dendritic solidification in undercooled Ni-Zr-Al melts: Experiments and modeling

Galenko, Peter
Reutzel, Sven
Herlach, Dieter, M.
Fries, S. G.
Steinbach, I.
Apel, M.

January 2009

The kinetics of dendritic solidification in a ternary Ni98Zr1Al1 alloy is investigated experimentall...

A Stable Dendritic Growth with Forced Convection: A Test of Theory Using Enthalpy-Based Modeling Methods

Kao, A.
Toropova, L.,
Krastins, I.
Demange, G.
Alexandrov, D.,
Galenko, P.,

August 2020

International audienceThe theory of stable dendritic growth within a forced convective flow field is...

A Stable Mode of Dendritic Growth in Cases of Conductive and Convective Heat and Mass Transfer

Liubov V. Toropova
Peter K. Galenko
Dmitri V. Alexandrov

July 2022

In this paper, we develop a theory of stable dendritic growth in undercooled melts in the presence o...

Dendritic growth with fluid flow in pure materials

Jun-ho Jeong
Jonathan A. Dantzig
Nigel Goldenfeld

January 2003

We study the growth of a single dendrite from a small initial seed in an undercooled melt in the pre...

An enthalpy-based model of dendritic growth in a convecting binary alloy melt

Bhattacharya, Anirban
Dutta, Pradip

January 2013

Purpose-In the present work, a numerical method, based on the well established enthalpy technique, i...

Phase field simulation of binary alloy dendrite growth under thermal- and forced-flow fields: An implementation of the parallel-multigrid approach

Guo, Zhipeng
Mi, J.
Xiong, S.
Grant, P. S.

May 2013

Dendrite growth and morphology evolution during solidification have been studied using a phase field...

Towards the Stable Evolution of Dendrites in the Case of Intense Convection in the Melt

Alexandrov, D. V.
Galenko, P. K.

January 2021

The solid-phase pattern in the form of a dendrite is one of the frequently met structures produced f...

Selection criterion for the growing dendritic tip in a non-isothermal binary system under forced convective flow

Alexandrov, Dimitri
Galenko, Peter
Herlach, Dieter

May 2010

A free dendrite growth during solidification into external forced flow is analyzed using a sharp int...

An equivalent undercooling model to account for flow effect on binary alloy dendrite growth rate

Bhattacharya, Anirban
Karagadde, Shyamprasad
Dutta, Pradip

January 2013

A theoretical analysis is carried out to observe the influence of important flow parameters such as ...

Modeling of dendrite growth from undercooled nickel melt: sharp interface model versus enthalpy method

Kao, A
Toropova, L
Alexandrov, D
Demange, Gilles
Galenko, P

May 2020

International audienceThe dendritic growth of pure materials in undercooled melts is critical to und...

Effect of tiny amount of impurity and convective transport on dendrite growth kinetics

Oleg V. Kazak
Dmitri V. Alexandrov
Peter K. Galenko

February 2020

Using the developed sharp-interface model of solidification we quantitatively estimate influence of ...

A Phase-field model study of two-dimensional dendritc growth in thermal solidification processes

Martínez González, Gustavo

June 2008

A phasefield model in two dimensions with both surface energy and kinetic anisotropies is used to si...

Modeling of dendrite growth from undercooled nickel melt: Sharp interface model versus enthalpy method

Kao, A.
Toropova, L. V.
Alexandrov, D. V.
Demange, G.
Galenko, P. K.

January 2020

The dendritic growth of pure materials in undercooled melts is critical to understanding the fundame...

Dendritic Growth Velocity and Diffusive Speed in Solidification of Undercooled Dilute Ni-Zr Melts

Schwarz, Mikael
Aziz, Michael
Arnold, Craig B.
Herlach, Dieter M.

January 1997

During rapid solidification of undercooled melts deviations from local equilibrium occur at the soli...

Selection Criterion of Stable Dendritic Growth for a Ternary (Multicomponent) Melt with a Forced Convective Flow

Abstract

Extracted data

Selection Criterion of Stable Dendritic Growth for a Ternary (Multicomponent) Melt with a Forced Convective Flow

Abstract

Extracted data

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