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Related Concept Videos

Metallic Solids02:37

Metallic Solids

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Metallic solids such as crystals of copper, aluminum, and iron are formed by metal atoms. The structure of metallic crystals is often described as a uniform distribution of atomic nuclei within a “sea” of delocalized electrons. The atoms within such a metallic solid are held together by a unique force known as metallic bonding that gives rise to many useful and varied bulk properties.
All metallic solids exhibit high thermal and electrical conductivity, metallic luster, and...
16.4K

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Methods of Ex Situ and In Situ Investigations of Structural Transformations: The Case of Crystallization of Metallic Glasses
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Combinatorial development of bulk metallic glasses.

Shiyan Ding1, Yanhui Liu1, Yanglin Li2

  • 11] Department of Mechanical Engineering and Materials Science, Yale University, New Haven, Connecticut 06520, USA [2] Center for Research on Interface Structures and Phenomena, Yale University, New Haven, Connecticut 06520, USA [3].

Nature Materials
|April 15, 2014
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Summary
This summary is machine-generated.

Discovering new multicomponent alloys, like bulk metallic glasses, is challenging. A new high-throughput method rapidly screens thousands of compositions, accelerating the discovery of materials with superior thermoplastic formability.

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Area of Science:

  • Materials Science
  • Alloy Development
  • Metallurgy

Background:

  • Identifying optimal multicomponent alloys, particularly bulk metallic glasses (BMGs), is hindered by vast compositional spaces and slow, trial-and-error development methods.
  • Current theoretical and computational approaches struggle to accurately predict the kinetics of glass formation in metallic systems.

Purpose of the Study:

  • To develop and implement a high-throughput strategy for the rapid fabrication and characterization of multicomponent alloys.
  • To accelerate the discovery rate of bulk metallic glasses with desirable properties, specifically thermoplastic formability.

Main Methods:

  • Simultaneous fabrication of approximately 3,000 unique alloy compositions.
  • High-throughput characterization of thermoplastic formability using parallel blow forming.
  • Application of the strategy to the Mg-Cu-Y glass-forming system.

Main Results:

  • Successfully identified the optimal alloy composition exhibiting the highest thermoplastic formability within the Mg-Cu-Y system.
  • Demonstrated the efficacy of the high-throughput approach in screening a large number of compositions efficiently.

Conclusions:

  • The presented high-throughput strategy offers a versatile toolbox for exploring complex material property correlations and glass formation.
  • This methodology is expected to significantly increase the discovery rate of novel metallic glasses.