Microscopic phase-field simulation of the γ′(Ni3Al) phase separation process

Yanli Lu; Zheng Chen; Yongxin Wang

Microscopic phase-field simulation of the γ′(Ni₃Al) phase separation process

Yanli Lu, Zheng Chen, Yongxin Wang

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

The separation process of γ′(Ni₃Al) phase in Ni-Al alloy containing 12.5at. %Al was simulated at the atomic scale using the microscopic phase-field model and microclasticity theory. The simulation results show that γ′ phases firstly are formed from the disordered solid solution by the mechanism of non-classical nuclcation growth, resulting in the appearance of single ordered domain separated by the antiphase domain boundaries (APBs). With the ordered domains isostrcutural decomposing and the Al-lcan regions disordering spontaneously, the equilibrium state is formed finally. In the whole stage of precipitation, the shape of γ′ phase becomes more regular and their orientation becomes more obvious, at the later stage, γ′ phase presents quadrate shape with round corner and align along the [10] and [01] directions.

Original language	English
Title of host publication	TMS2008 - 137th Annual Meeting and Exhibition Supplemental Proceedings
Subtitle of host publication	Materials Processing and Properties
Pages	231-236
Number of pages	6
State	Published - 2008
Externally published	Yes
Event	TMS 2008 Annual Meeting Supplemental: Materials Processing and Properties - New Orleans, LA, United States Duration: 9 Mar 2008 → 13 Mar 2008

Publication series

Name	TMS Annual Meeting
Volume	2

Conference

Conference	TMS 2008 Annual Meeting Supplemental: Materials Processing and Properties
Country/Territory	United States
City	New Orleans, LA
Period	9/03/08 → 13/03/08

Keywords

Elastic strain
Microscopic phase-field
NiAl
Phase separation
Simulation

Cite this

@inproceedings{7b429def9b2f4dbc9cdfaf857e35b4f8,

title = "Microscopic phase-field simulation of the γ′(Ni3Al) phase separation process",

abstract = "The separation process of γ′(Ni3Al) phase in Ni-Al alloy containing 12.5at. %Al was simulated at the atomic scale using the microscopic phase-field model and microclasticity theory. The simulation results show that γ′ phases firstly are formed from the disordered solid solution by the mechanism of non-classical nuclcation growth, resulting in the appearance of single ordered domain separated by the antiphase domain boundaries (APBs). With the ordered domains isostrcutural decomposing and the Al-lcan regions disordering spontaneously, the equilibrium state is formed finally. In the whole stage of precipitation, the shape of γ′ phase becomes more regular and their orientation becomes more obvious, at the later stage, γ′ phase presents quadrate shape with round corner and align along the [10] and [01] directions.",

keywords = "Elastic strain, Microscopic phase-field, NiAl, Phase separation, Simulation",

author = "Yanli Lu and Zheng Chen and Yongxin Wang",

year = "2008",

language = "英语",

isbn = "9780873397179",

series = "TMS Annual Meeting",

pages = "231--236",

booktitle = "TMS2008 - 137th Annual Meeting and Exhibition Supplemental Proceedings",

note = "TMS 2008 Annual Meeting Supplemental: Materials Processing and Properties ; Conference date: 09-03-2008 Through 13-03-2008",

}

Lu, Y, Chen, Z & Wang, Y 2008, Microscopic phase-field simulation of the γ′(Ni₃Al) phase separation process. in TMS2008 - 137th Annual Meeting and Exhibition Supplemental Proceedings: Materials Processing and Properties. TMS Annual Meeting, vol. 2, pp. 231-236, TMS 2008 Annual Meeting Supplemental: Materials Processing and Properties, New Orleans, LA, United States, 9/03/08.

Microscopic phase-field simulation of the γ′(Ni₃Al) phase separation process. / Lu, Yanli; Chen, Zheng; Wang, Yongxin.
TMS2008 - 137th Annual Meeting and Exhibition Supplemental Proceedings: Materials Processing and Properties. 2008. p. 231-236 (TMS Annual Meeting; Vol. 2).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - Microscopic phase-field simulation of the γ′(Ni3Al) phase separation process

AU - Lu, Yanli

AU - Chen, Zheng

AU - Wang, Yongxin

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N2 - The separation process of γ′(Ni3Al) phase in Ni-Al alloy containing 12.5at. %Al was simulated at the atomic scale using the microscopic phase-field model and microclasticity theory. The simulation results show that γ′ phases firstly are formed from the disordered solid solution by the mechanism of non-classical nuclcation growth, resulting in the appearance of single ordered domain separated by the antiphase domain boundaries (APBs). With the ordered domains isostrcutural decomposing and the Al-lcan regions disordering spontaneously, the equilibrium state is formed finally. In the whole stage of precipitation, the shape of γ′ phase becomes more regular and their orientation becomes more obvious, at the later stage, γ′ phase presents quadrate shape with round corner and align along the [10] and [01] directions.

AB - The separation process of γ′(Ni3Al) phase in Ni-Al alloy containing 12.5at. %Al was simulated at the atomic scale using the microscopic phase-field model and microclasticity theory. The simulation results show that γ′ phases firstly are formed from the disordered solid solution by the mechanism of non-classical nuclcation growth, resulting in the appearance of single ordered domain separated by the antiphase domain boundaries (APBs). With the ordered domains isostrcutural decomposing and the Al-lcan regions disordering spontaneously, the equilibrium state is formed finally. In the whole stage of precipitation, the shape of γ′ phase becomes more regular and their orientation becomes more obvious, at the later stage, γ′ phase presents quadrate shape with round corner and align along the [10] and [01] directions.

KW - Elastic strain

KW - Microscopic phase-field

KW - NiAl

KW - Phase separation

KW - Simulation

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