PHASE SELECTION TRANSITIONS DURING UNDERCOOLED MELT SOLIDIFICATION

机译：过冷熔体凝固过程中的相选择转变

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Alloy phase selection is often controlled by nucleation during solidification of undercooled melts. The structure options are defined by thermodynamics, but the selection process is determined by a kinetics competition. During product phase transitions that develop with changing undercooling level or alloy composition, competitive nucleation can yield mixed phase microstructures as shown for rapid solidification of eutectics and glass forming alloys. Alternatively, at increasing rates, an initial solidification reaction can be superseded by a new nucleation controlled phase selection transition due to growth kinetic limitations that can develop during resolidification following surface melting or due to modification of heterogeneous nucleants. The complete analysis of solidification microstructure evolution during phase selection transitions also requires the consideration of solid-state reactions.

机译：合金相的选择通常由过冷熔体的凝固过程中的成核作用来控制。结构选项由热力学定义，但选择过程由动力学竞争决定。在随着过冷度或合金组成的变化而产生的产品相变过程中，竞争性成核可产生混合相微结构，如图所示，可快速凝固共晶和玻璃成形合金。可选地，由于生长动力学的限制，初始固化反应可以被新的成核控制的相选择转变所取代，这是由于生长动力学的限制，该动力学动力学限制可能在表面熔化后的再固化过程中形成，或者由于异质成核剂的修饰。在相选择过渡过程中对凝固微观结构演变的完整分析还需要考虑固态反应。

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来源
《TMS(The Minerals, Metals amp; Materials Society) Annual Meeting; 20040314-20040318; Charlotte,NC; US》|2004年|P.295-306|共12页
会议地点 Charlotte NC(US);Charlotte NC(US)
作者
J.H. Perepezko;
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作者单位

University of Wisconsin-Madison Department of Materials Science and Engineering 1509 Univ. Ave. Madison, WI 53706,USA;

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会议组织
原文格式 PDF
正文语种 eng
中图分类工程材料一般性问题;
关键词
undercooling; nucleation; phase selection; metastable phases; nanocrystals;

机译：过冷;成核;相选择;相变;纳米晶体;

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1. Phase selection during solidification of undercooled Ti-Fe-Si-O melts [J] . Dirk Holland-Moritz, Oliver Heinen, Dieter M. Herlach Materials Science and Engineering. A, Structural Materials: Properties, Microstructure and Processing . 2005,第Dec期

机译：过冷Ti-Fe-Si-O熔体凝固过程中的相选择
2. On determining the phase-selection principle in solidification from undercooled melts -- competitive nucleation or competitive growth? [J] . Mingjun Li, Shumpei ozawa, Kazuhjko kuribayashi Philosophical Magazine Letters . 2004,第8期

机译：在确定过冷熔体凝固的相选择原理时-竞争成核还是竞争性增长？
3. Phase selection during solidification of undercooled bulk Bi_95Sb_5 melts [J] . Z. Zhou, J. Zhao, W. Wang Journal of Materials Research . 2000,第1期

机译：过冷块体Bi_95Sb_5熔体凝固过程中的相选择
4. PHASE SELECTION TRANSITIONS DURING UNDERCOOLED MELT SOLIDIFICATION [C] . J.H. Perepezko TMS Annual Meeting . 2004

机译：过冷熔融凝固过程中的相位选择过渡
5. Phase selection and microstructure in directional solidification of glass forming Pd-Si-Cu alloys [D] . Huo, Yang 2015

机译：玻璃成形Pd-Si-Cu合金定向凝固的相选择和组织
6. Evidence for the transition from primary to peritectic phase growth during solidification of undercooled Ni-Zr alloy levitated by electromagnetic field [O] . P. Lü, K. Zhou, H. P. Wang -1

机译：在电磁场作用下过冷的Ni-Zr合金凝固过程中从初生相到包晶相生长的证据
7. Nucleation-Controlled Phase Selection in Rapid Solidification from Undercooled Melt of DyMnO₃ [O] . You Hayasaka, Kazuhiko Kuribayashi, Suguru Shiratori, 2021

机译：来自Dymno _{3 的过冷熔体的快速凝固中的成核控制相选择}
8. Phase Selection in Undercooled Liquids of Pulsed-Laser Melted Alloys [R] . Follstaedt, D. M. , Peercy, P. S. , Perepezko, J. H. 1987

机译：脉冲激光熔融合金过冷液相的相选择

PHASE SELECTION TRANSITIONS DURING UNDERCOOLED MELT SOLIDIFICATION

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