Atomic Mobilities in the Ag-Cu-Sn Face-Centered Cubic Lattice

被引:0
|
作者
W. Gierlotka
Y.H. Chen
M.A. Haque
M.A. Rahman
机构
[1] Yuan-Ze University,Chemical Engineering and Material Science Department
来源
Journal of Electronic Materials | 2012年 / 41卷
关键词
Atomic mobility; CALPHAD; Dictra; face-centered cubic lattice; silver; copper; tin;
D O I
暂无
中图分类号
学科分类号
摘要
Knowledge of atomic mobilities is necessary to predict the evolution of microstructure. The theoretical description of atomic mobilities is connected to the chemical potentials of the components in a given phase. A new thermodynamic description of the quaternary Ag-Cu-In-Sn system was recently published, and it is clear that a new description of the mobilities is also necessary. Based on the available literature and using Dictra software, optimization of the mobility parameters of silver, copper, and tin in the face-centered cubic phase was carried out. The results were compared with relevant data from literature as well as with our own experimental results. Good agreement between calculations and experiment was obtained.
引用
收藏
页码:3359 / 3367
页数:8
相关论文
共 50 条
  • [31] A universal scaling of planar fault energy barriers in face-centered cubic metals
    Jin, Z. H.
    Dunham, S. T.
    Gleiter, H.
    Hahn, H.
    Gumbsch, P.
    SCRIPTA MATERIALIA, 2011, 64 (07) : 605 - 608
  • [32] The deformation stage II of face-centered cubic crystals: Fifty years of investigations
    Kubin, Ladislas
    Devincre, Benoit
    Hoc, Thierry
    INTERNATIONAL JOURNAL OF MATERIALS RESEARCH, 2009, 100 (10) : 1411 - 1419
  • [33] Design of new face-centered cubic high entropy alloys by thermodynamic calculation
    Won-Mi Choi
    Seungmun Jung
    Yong Hee Jo
    Sunghak Lee
    Byeong-Joo Lee
    Metals and Materials International, 2017, 23 : 839 - 847
  • [34] The effect of temperature on detwinning and mechanical properties of face-centered cubic deformation twins
    Szczerba, M. S.
    Szczerba, M. J.
    ACTA MATERIALIA, 2024, 263
  • [35] New creep region in pure face-centered cubic metals at low temperatures
    Matsunaga, Tetsuya
    Ueda, Shouji
    Sato, Eiichi
    SCRIPTA MATERIALIA, 2010, 63 (05) : 516 - 519
  • [36] Design of new face-centered cubic high entropy alloys by thermodynamic calculation
    Choi, Won-Mi
    Jung, Seungmun
    Jo, Yong Hee
    Lee, Sunghak
    Lee, Byeong-Joo
    METALS AND MATERIALS INTERNATIONAL, 2017, 23 (05) : 839 - 847
  • [37] A study on crystal plasticity of face-centered cubic structures induced by deformation twinning
    Szczerba, M. S.
    Kopacz, S.
    Szczerba, M. J.
    ACTA MATERIALIA, 2020, 197 (197) : 146 - 162
  • [38] Nanoscale structural refinement via deformation twinning in face-centered cubic metals
    Tao, N. R.
    Lu, K.
    SCRIPTA MATERIALIA, 2009, 60 (12) : 1039 - 1043
  • [39] Crystallographic controlled dissolution and surface faceting in disordered face-centered cubic FePd
    Horton, D. J.
    Zhu, A. W.
    Scully, J. R.
    Neurock, M.
    MRS COMMUNICATIONS, 2014, 4 (03) : 113 - 119
  • [40] Reconciling experimental and theoretical stacking fault energies in face-centered cubic materials with the experimental twinning stress
    Werner, Konstantin V.
    Niessen, Frank
    Li, Wei
    Lu, Song
    Vitos, Levente
    Villa, Matteo
    Somers, Marcel A. J.
    MATERIALIA, 2023, 27
12345