Surface rippling during solidification of binary polycrystalline alloy: Insights from 3-D phase-field simulations

被引:0
|
作者
Ankit, Kumar [1 ]
Xing, Hui [2 ]
Selzer, Michael [1 ,3 ]
Nestler, Britta [1 ,3 ]
Glicksman, Martin E. [4 ]
机构
[1] Institute of Applied Materials, Karlsruhe Institute of Technology, Haid-und-Neu Str. 7, Karlsruhe,76131, Germany
[2] Key Laboratory of Space Applied Physics and Chemistry, Shaanxi Key Laboratory for Condensed Matter Structure and Properties, Northwestern Polytechnical University, Xi'an, China
[3] Institute of Materials and Processes, Karlsruhe University of Applied Science, Moltkestr. 30, Karlsruhe,76133, Germany
[4] College of Engineering, Florida Institute of Technology, 150 West University Blvd., Melbourne,FL,32901-6975, United States
来源
Journal of Crystal Growth | 2017年 / 457卷
关键词
Number:; -; Acronym:; FIT; Sponsor: Florida Institute of Technology; NE; 822/22-1; DFG; Sponsor: Deutsche Forschungsgemeinschaft; 2015JQ5125; Sponsor: Natural Science Foundation of Shaanxi Province;
D O I
暂无
中图分类号
学科分类号
摘要
Solidification
引用
收藏
页码:52 / 59
相关论文
共 50 条
  • [1] Surface rippling during solidification of binary polycrystalline alloy: Insights from 3-D phase-field simulations
    Ankit, Kumar
    Xing, Hui
    Selzer, Michael
    Nestler, Britta
    Glicksman, Martin E.
    JOURNAL OF CRYSTAL GROWTH, 2017, 457 : 52 - 59
  • [2] Growth competition during columnar solidification of seaweed microstructures Insights from 3-D phase-field simulations
    Ankit, Kumar
    Glicksman, Martin E.
    EUROPEAN PHYSICAL JOURNAL E, 2020, 43 (02):
  • [3] Investigation into microsegregation during solidification of a binary alloy by phase-field simulations
    Li, Junjie
    Wang, Jincheng
    Yang, Gencang
    JOURNAL OF CRYSTAL GROWTH, 2009, 311 (04) : 1217 - 1222
  • [4] Growth competition during columnar solidification of seaweed microstructuresInsights from 3-D phase-field simulations
    Kumar Ankit
    Martin E. Glicksman
    The European Physical Journal E, 2020, 43
  • [5] Phase-field simulations of non-isothermal binary alloy solidification
    Loginova, I
    Amberg, G
    Ågren, J
    ACTA MATERIALIA, 2001, 49 (04) : 573 - 581
  • [6] Phase-field simulation of binary alloy during directional solidification
    Wang Zhiping
    Xiao Rongzhen
    Zhu Changsheng
    Xu Jianlin
    Wang Yanlu
    RARE METAL MATERIALS AND ENGINEERING, 2006, 35 : 369 - 373
  • [7] Phase-field model of solidification of a binary alloy
    Bi, ZQ
    Sekerka, RF
    PHYSICA A-STATISTICAL MECHANICS AND ITS APPLICATIONS, 1998, 261 (1-2) : 95 - 106
  • [8] GPU-accelerated 3D phase-field simulations of dendrite competitive growth during directional solidification of binary alloy
    Sakane, S.
    Takaki, T.
    Ohno, M.
    Shimokawabe, T.
    Aoki, T.
    MCWASP XIV: INTERNATIONAL CONFERENCE ON MODELLING OF CASTING, WELDING AND ADVANCED SOLIDIFICATION PROCESSES, 2015, 84
  • [9] Isotropic finite-difference approximations for phase-field simulations of polycrystalline alloy solidification
    Ji, Kaihua
    Tabrizi, Amirhossein Molavi
    Karma, Alain
    JOURNAL OF COMPUTATIONAL PHYSICS, 2022, 457
  • [10] Dendritic tip selection during solidification of alloys:Insights from phase-field simulations
    张清杰
    邢辉
    王灵杰
    翟薇
    Chinese Physics B, 2024, 33 (09) : 471 - 476
12345