Simulations and analysis of phase transformations in bcc-Fe under isothermal compression

Jianli Shao; Chengsen Qin; Pei Wang

Simulations and analysis of phase transformations in bcc-Fe under isothermal compression

Jianli Shao^*, Chengsen Qin, Pei Wang

^*Corresponding author for this work

IAPCM

Research output: Contribution to journal › Article › peer-review

1 Citation (Scopus)

Abstract

Using EAM potential and molecular dynamics, the transition from bcc to hcp in bcc-Fe under isothermal compression along [001] orientation was simulated. The results reveal that under the stress beyond transition threshold, hcp phase begins to nucleate and then grows into flaky morphology along (011) plane of bcc phase and the system shows an over-relaxation of stress. Mean stress and hcp mass percent increase linearly with volume compression during the growth of hcp phase, and longitudinal partial stress reduces linearly with increasing of hcp phase during the whole transition process. Average potential of the atoms in hcp phase is greater than that in bcc phase.

Original language	English
Pages (from-to)	1085-1089
Number of pages	5
Journal	Jinshu Xuebao/Acta Metallurgica Sinica
Volume	44
Issue number	9
Publication status	Published - Sept 2008
Externally published	Yes

Keywords

Bcc-Fe
Isothermal compression
Molecular dynamics
Phase transformation

Cite this

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title = "Simulations and analysis of phase transformations in bcc-Fe under isothermal compression",

abstract = "Using EAM potential and molecular dynamics, the transition from bcc to hcp in bcc-Fe under isothermal compression along [001] orientation was simulated. The results reveal that under the stress beyond transition threshold, hcp phase begins to nucleate and then grows into flaky morphology along (011) plane of bcc phase and the system shows an over-relaxation of stress. Mean stress and hcp mass percent increase linearly with volume compression during the growth of hcp phase, and longitudinal partial stress reduces linearly with increasing of hcp phase during the whole transition process. Average potential of the atoms in hcp phase is greater than that in bcc phase.",

keywords = "Bcc-Fe, Isothermal compression, Molecular dynamics, Phase transformation",

author = "Jianli Shao and Chengsen Qin and Pei Wang",

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T1 - Simulations and analysis of phase transformations in bcc-Fe under isothermal compression

AU - Shao, Jianli

AU - Qin, Chengsen

AU - Wang, Pei

PY - 2008/9

Y1 - 2008/9

N2 - Using EAM potential and molecular dynamics, the transition from bcc to hcp in bcc-Fe under isothermal compression along [001] orientation was simulated. The results reveal that under the stress beyond transition threshold, hcp phase begins to nucleate and then grows into flaky morphology along (011) plane of bcc phase and the system shows an over-relaxation of stress. Mean stress and hcp mass percent increase linearly with volume compression during the growth of hcp phase, and longitudinal partial stress reduces linearly with increasing of hcp phase during the whole transition process. Average potential of the atoms in hcp phase is greater than that in bcc phase.

AB - Using EAM potential and molecular dynamics, the transition from bcc to hcp in bcc-Fe under isothermal compression along [001] orientation was simulated. The results reveal that under the stress beyond transition threshold, hcp phase begins to nucleate and then grows into flaky morphology along (011) plane of bcc phase and the system shows an over-relaxation of stress. Mean stress and hcp mass percent increase linearly with volume compression during the growth of hcp phase, and longitudinal partial stress reduces linearly with increasing of hcp phase during the whole transition process. Average potential of the atoms in hcp phase is greater than that in bcc phase.

KW - Bcc-Fe

KW - Isothermal compression

KW - Molecular dynamics

KW - Phase transformation

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M3 - Article

AN - SCOPUS:54749132677

SN - 0412-1961

VL - 44

SP - 1085

EP - 1089

JO - Jinshu Xuebao/Acta Metallurgica Sinica

JF - Jinshu Xuebao/Acta Metallurgica Sinica

IS - 9

ER -

Simulations and analysis of phase transformations in bcc-Fe under isothermal compression

Abstract

Keywords

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