真空自耗电弧熔炼铸锭凝固行为多尺度模拟研究进展

Junjie Li; Panyue Li; Liqing Huang; Jie Guo; Jingyang Wu; Kai Fan; Jincheng Wang

doi:10.11900/0412.1961.2024.00265

真空自耗电弧熔炼铸锭凝固行为多尺度模拟研究进展

Translated title of the contribution: Progress in Multiscale Simulation of Solidification Behavior in Vacuum Arc Remelted Ingot

Junjie Li
, Panyue Li
, Liqing Huang
, Jie Guo
, Jingyang Wu
, Kai Fan
, Jincheng Wang

School of Materials Sience and Engineering

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

1 Scopus citations

Abstract

Vacuum arc remelting (VAR) is the principal remelting process for producing high-quality Ti-based alloy and Ni-based superalloy ingots with high density, fine chemical homogeneity, and minimal defects. Numerical modeling plays a crucial role in understanding the mechanisms and dynamics of various phenomena occurring at different scales during the VAR process. It also aids in optimizing operational parameters. In this paper, the development of multiscale simulations for VAR ingot solidification over the last two decades is introduced. The following four aspects are addressed: numerical models at various scales, macroscopic transport phenomena, microstructure and defect evolution, and the effects of process control parameters on the VAR ingot quality. Furthermore, the current limitations in this field and proposed future development directions are discussed.

Translated title of the contribution	Progress in Multiscale Simulation of Solidification Behavior in Vacuum Arc Remelted Ingot
Original language	Chinese (Traditional)
Pages (from-to)	12-28
Number of pages	17
Journal	Jinshu Xuebao/Acta Metallurgica Sinica
Volume	61
Issue number	1
DOIs	https://doi.org/10.11900/0412.1961.2024.00265
State	Published - Jan 2025

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10.11900/0412.1961.2024.00265

Cite this

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title = "真空自耗电弧熔炼铸锭凝固行为多尺度模拟研究进展",

abstract = "Vacuum arc remelting (VAR) is the principal remelting process for producing high-quality Ti-based alloy and Ni-based superalloy ingots with high density, fine chemical homogeneity, and minimal defects. Numerical modeling plays a crucial role in understanding the mechanisms and dynamics of various phenomena occurring at different scales during the VAR process. It also aids in optimizing operational parameters. In this paper, the development of multiscale simulations for VAR ingot solidification over the last two decades is introduced. The following four aspects are addressed: numerical models at various scales, macroscopic transport phenomena, microstructure and defect evolution, and the effects of process control parameters on the VAR ingot quality. Furthermore, the current limitations in this field and proposed future development directions are discussed.",

keywords = "macrosegregation, microstructure, numerical simulation, solidification, vacuum arc remelting",

author = "Junjie Li and Panyue Li and Liqing Huang and Jie Guo and Jingyang Wu and Kai Fan and Jincheng Wang",

year = "2025",

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doi = "10.11900/0412.1961.2024.00265",

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AU - Li, Junjie

AU - Li, Panyue

AU - Huang, Liqing

AU - Guo, Jie

AU - Wu, Jingyang

AU - Fan, Kai

AU - Wang, Jincheng

PY - 2025/1

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N2 - Vacuum arc remelting (VAR) is the principal remelting process for producing high-quality Ti-based alloy and Ni-based superalloy ingots with high density, fine chemical homogeneity, and minimal defects. Numerical modeling plays a crucial role in understanding the mechanisms and dynamics of various phenomena occurring at different scales during the VAR process. It also aids in optimizing operational parameters. In this paper, the development of multiscale simulations for VAR ingot solidification over the last two decades is introduced. The following four aspects are addressed: numerical models at various scales, macroscopic transport phenomena, microstructure and defect evolution, and the effects of process control parameters on the VAR ingot quality. Furthermore, the current limitations in this field and proposed future development directions are discussed.

AB - Vacuum arc remelting (VAR) is the principal remelting process for producing high-quality Ti-based alloy and Ni-based superalloy ingots with high density, fine chemical homogeneity, and minimal defects. Numerical modeling plays a crucial role in understanding the mechanisms and dynamics of various phenomena occurring at different scales during the VAR process. It also aids in optimizing operational parameters. In this paper, the development of multiscale simulations for VAR ingot solidification over the last two decades is introduced. The following four aspects are addressed: numerical models at various scales, macroscopic transport phenomena, microstructure and defect evolution, and the effects of process control parameters on the VAR ingot quality. Furthermore, the current limitations in this field and proposed future development directions are discussed.

KW - macrosegregation

KW - microstructure

KW - numerical simulation

KW - solidification

KW - vacuum arc remelting

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U2 - 10.11900/0412.1961.2024.00265

DO - 10.11900/0412.1961.2024.00265

M3 - 文章

AN - SCOPUS:85215066105

SN - 0412-1961

VL - 61

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JO - Jinshu Xuebao/Acta Metallurgica Sinica

JF - Jinshu Xuebao/Acta Metallurgica Sinica

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ER -

真空自耗电弧熔炼铸锭凝固行为多尺度模拟研究进展

Abstract

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