Mechanical performance and fracture behavior of Fe41Co7Cr15Mo14 Y2C15B6 bulk metallic glass

Q. J. Chen; Jun Shen; D. L. Zhang; H. B. Fan; J. F. Sun

doi:10.1557/jmr.2007.0038

Mechanical performance and fracture behavior of Fe₄₁Co₇Cr₁₅Mo₁₄ Y₂C₁₅B₆ bulk metallic glass

Q. J. Chen
, Jun Shen^*
, D. L. Zhang
, H. B. Fan
, J. F. Sun

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

58 Scopus citations

Abstract

The mechanical properties of a new Fe₄₁Co₇ Cr₁₅Mo₁₄Y₂C₁₅ B₆ bulk glassy alloy were studied by impact bending, compression, and hardness tests carried out at room temperature. The compressive fracture strength, elastic strain to fracture, Young's modulus and Vickers hardness were measured to be 3.5 GPa, 1.5%, 265 GPa, and 1253 kg mm^-2, respectively. The fracture mode of the glassy alloy under uniaxial compression is different from those of other bulk metallic glasses in that this fracture mode causes the samples to be broken, in an exploding manner, into a large number of micrometer-scale pieces. The fracture mechanisms of this bulk glassy alloy under bending and uniaxial compression are discussed based on the observation of the fracture surfaces. Vickers indentation tests indicate that the structure of the glassy ingot may be inhomogencous.

Original language	English
Pages (from-to)	358-363
Number of pages	6
Journal	Journal of Materials Research
Volume	22
Issue number	2
DOIs	https://doi.org/10.1557/jmr.2007.0038
State	Published - Feb 2007
Externally published	Yes

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title = "Mechanical performance and fracture behavior of Fe41Co7Cr15Mo14 Y2C15B6 bulk metallic glass",

abstract = "The mechanical properties of a new Fe41Co7 Cr15Mo14Y2C15 B6 bulk glassy alloy were studied by impact bending, compression, and hardness tests carried out at room temperature. The compressive fracture strength, elastic strain to fracture, Young's modulus and Vickers hardness were measured to be 3.5 GPa, 1.5\%, 265 GPa, and 1253 kg mm-2, respectively. The fracture mode of the glassy alloy under uniaxial compression is different from those of other bulk metallic glasses in that this fracture mode causes the samples to be broken, in an exploding manner, into a large number of micrometer-scale pieces. The fracture mechanisms of this bulk glassy alloy under bending and uniaxial compression are discussed based on the observation of the fracture surfaces. Vickers indentation tests indicate that the structure of the glassy ingot may be inhomogencous.",

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AU - Chen, Q. J.

AU - Shen, Jun

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AU - Fan, H. B.

AU - Sun, J. F.

PY - 2007/2

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N2 - The mechanical properties of a new Fe41Co7 Cr15Mo14Y2C15 B6 bulk glassy alloy were studied by impact bending, compression, and hardness tests carried out at room temperature. The compressive fracture strength, elastic strain to fracture, Young's modulus and Vickers hardness were measured to be 3.5 GPa, 1.5%, 265 GPa, and 1253 kg mm-2, respectively. The fracture mode of the glassy alloy under uniaxial compression is different from those of other bulk metallic glasses in that this fracture mode causes the samples to be broken, in an exploding manner, into a large number of micrometer-scale pieces. The fracture mechanisms of this bulk glassy alloy under bending and uniaxial compression are discussed based on the observation of the fracture surfaces. Vickers indentation tests indicate that the structure of the glassy ingot may be inhomogencous.

AB - The mechanical properties of a new Fe41Co7 Cr15Mo14Y2C15 B6 bulk glassy alloy were studied by impact bending, compression, and hardness tests carried out at room temperature. The compressive fracture strength, elastic strain to fracture, Young's modulus and Vickers hardness were measured to be 3.5 GPa, 1.5%, 265 GPa, and 1253 kg mm-2, respectively. The fracture mode of the glassy alloy under uniaxial compression is different from those of other bulk metallic glasses in that this fracture mode causes the samples to be broken, in an exploding manner, into a large number of micrometer-scale pieces. The fracture mechanisms of this bulk glassy alloy under bending and uniaxial compression are discussed based on the observation of the fracture surfaces. Vickers indentation tests indicate that the structure of the glassy ingot may be inhomogencous.

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Mechanical performance and fracture behavior of Fe₄₁Co₇Cr₁₅Mo₁₄ Y₂C₁₅B₆ bulk metallic glass

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