Mg-based bulk metallic glass composites with plasticity and gigapascal strength

Ying Kun Xu; Han Ma; Jian Xu; En Ma

doi:10.1016/j.actamat.2004.12.036

Mg-based bulk metallic glass composites with plasticity and gigapascal strength

Ying Kun Xu
, Han Ma
, Jian Xu
, En Ma

CAS - Institute of Metal Research
Johns Hopkins University

科研成果: 期刊稿件 › 文章 › 同行评审

226 引用（Scopus）

摘要

The lightweight Mg₆₅Cu_7.5Ni_7.5Zn ₅Ag₅Y₁₀ bulk metallic glasses (BMG) always fail before yielding, with irreproducible strengths <650 MPa. Adding particles of TiB₂ as the reinforcing phase, which can be uniformly distributed in the matrix without adversely affecting its glass-forming ability upon copper mold casting, the BMG composites can sustain a plastic strain to failure of 2-3% at a compressive fracture strength as high as 1.3 GPa. The strengthening/ toughening effects of the second phase particles are attributed to their ability to serve as obstacles to the propagation of run-away shear bands and micro-cracks, as well as to the generation of multiple shear bands due to the large elastic mismatch between the TiB₂ and the matrix. The angle between the compressive shear plane and loading axis is ∼41°, consistent with the Mohr-Coulomb criterion. The very high specific strength of ∼3.5 × 10⁵ N m kg^-1 exceeds by far those of commercial Mg or Al alloys and even Zr-based BMGs.

源语言	英语
页（从-至）	1857-1866
页数	10
期刊	Acta Materialia
卷	53
期	6
DOI	https://doi.org/10.1016/j.actamat.2004.12.036
出版状态	已出版 - 4月 2005
已对外发布	是

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title = "Mg-based bulk metallic glass composites with plasticity and gigapascal strength",

abstract = "The lightweight Mg65Cu7.5Ni7.5Zn 5Ag5Y10 bulk metallic glasses (BMG) always fail before yielding, with irreproducible strengths <650 MPa. Adding particles of TiB2 as the reinforcing phase, which can be uniformly distributed in the matrix without adversely affecting its glass-forming ability upon copper mold casting, the BMG composites can sustain a plastic strain to failure of 2-3\% at a compressive fracture strength as high as 1.3 GPa. The strengthening/ toughening effects of the second phase particles are attributed to their ability to serve as obstacles to the propagation of run-away shear bands and micro-cracks, as well as to the generation of multiple shear bands due to the large elastic mismatch between the TiB2 and the matrix. The angle between the compressive shear plane and loading axis is ∼41°, consistent with the Mohr-Coulomb criterion. The very high specific strength of ∼3.5 × 105 N m kg-1 exceeds by far those of commercial Mg or Al alloys and even Zr-based BMGs.",

keywords = "Composites, Magnesium, Mechanical properties, Metallic glasses",

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AU - Xu, Ying Kun

AU - Ma, Han

AU - Xu, Jian

AU - Ma, En

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N2 - The lightweight Mg65Cu7.5Ni7.5Zn 5Ag5Y10 bulk metallic glasses (BMG) always fail before yielding, with irreproducible strengths <650 MPa. Adding particles of TiB2 as the reinforcing phase, which can be uniformly distributed in the matrix without adversely affecting its glass-forming ability upon copper mold casting, the BMG composites can sustain a plastic strain to failure of 2-3% at a compressive fracture strength as high as 1.3 GPa. The strengthening/ toughening effects of the second phase particles are attributed to their ability to serve as obstacles to the propagation of run-away shear bands and micro-cracks, as well as to the generation of multiple shear bands due to the large elastic mismatch between the TiB2 and the matrix. The angle between the compressive shear plane and loading axis is ∼41°, consistent with the Mohr-Coulomb criterion. The very high specific strength of ∼3.5 × 105 N m kg-1 exceeds by far those of commercial Mg or Al alloys and even Zr-based BMGs.

AB - The lightweight Mg65Cu7.5Ni7.5Zn 5Ag5Y10 bulk metallic glasses (BMG) always fail before yielding, with irreproducible strengths <650 MPa. Adding particles of TiB2 as the reinforcing phase, which can be uniformly distributed in the matrix without adversely affecting its glass-forming ability upon copper mold casting, the BMG composites can sustain a plastic strain to failure of 2-3% at a compressive fracture strength as high as 1.3 GPa. The strengthening/ toughening effects of the second phase particles are attributed to their ability to serve as obstacles to the propagation of run-away shear bands and micro-cracks, as well as to the generation of multiple shear bands due to the large elastic mismatch between the TiB2 and the matrix. The angle between the compressive shear plane and loading axis is ∼41°, consistent with the Mohr-Coulomb criterion. The very high specific strength of ∼3.5 × 105 N m kg-1 exceeds by far those of commercial Mg or Al alloys and even Zr-based BMGs.

KW - Composites

KW - Magnesium

KW - Mechanical properties

KW - Metallic glasses

UR - https://www.scopus.com/pages/publications/13844321127

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DO - 10.1016/j.actamat.2004.12.036

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SN - 1359-6454

VL - 53

SP - 1857

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JO - Acta Materialia

JF - Acta Materialia

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ER -

Mg-based bulk metallic glass composites with plasticity and gigapascal strength

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