Improved wear resistance of dendrite composite eutectic Fe-B alloy

Licai Fu; Jun Yang; Qinling Bi; Weimin Liu

doi:10.1115/1.4005067

Improved wear resistance of dendrite composite eutectic Fe-B alloy

Licai Fu, Jun Yang, Qinling Bi, Weimin Liu

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

2 Scopus citations

Abstract

The dry-sliding tribological properties of the dendrite composite eutectic Fe-B alloys (Fe_94.3B_5.7, Fe₇₅B₂₅ Fe₆₇B₃₃) were studied comparatively with various sliding speeds. The friction coefficient of the Fe-B alloy changes slightly with the boron content. The wear rate of the Fe_94.3B_5.7 alloy with about 30 vol. dendrite t-Fe₂B is only one third of Fe ₇₅B₂₅ alloy with 15 vol. dendrite and Fe ₆₇B₃₃ alloy with 90 vol. dendrite in the high sliding speed. First, a hard t-Fe₂B phase reduced the wear of the Fe-B alloy directly. Second, the compactly oxide layers resulting from oxidation of the -Fe on the worn surfaces also decreases the wear rate of Fe-B alloys. On the whole, the wear rate of the Fe_94.3B_5.7 is lower than Fe ₆₇B₃₃ and Fe₇₅B₂₅.

Original language	English
Article number	41602
Journal	Journal of Tribology
Volume	133
Issue number	4
DOIs	https://doi.org/10.1115/1.4005067
State	Published - 2011
Externally published	Yes

Keywords

dendrite composite
Fe-B alloy
friction
wear mechanism

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title = "Improved wear resistance of dendrite composite eutectic Fe-B alloy",

abstract = "The dry-sliding tribological properties of the dendrite composite eutectic Fe-B alloys (Fe94.3B5.7, Fe75B25 Fe67B33) were studied comparatively with various sliding speeds. The friction coefficient of the Fe-B alloy changes slightly with the boron content. The wear rate of the Fe94.3B5.7 alloy with about 30 vol. dendrite t-Fe2B is only one third of Fe 75B25 alloy with 15 vol. dendrite and Fe 67B33 alloy with 90 vol. dendrite in the high sliding speed. First, a hard t-Fe2B phase reduced the wear of the Fe-B alloy directly. Second, the compactly oxide layers resulting from oxidation of the -Fe on the worn surfaces also decreases the wear rate of Fe-B alloys. On the whole, the wear rate of the Fe94.3B5.7 is lower than Fe 67B33 and Fe75B25.",

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T1 - Improved wear resistance of dendrite composite eutectic Fe-B alloy

AU - Fu, Licai

AU - Yang, Jun

AU - Bi, Qinling

AU - Liu, Weimin

PY - 2011

Y1 - 2011

N2 - The dry-sliding tribological properties of the dendrite composite eutectic Fe-B alloys (Fe94.3B5.7, Fe75B25 Fe67B33) were studied comparatively with various sliding speeds. The friction coefficient of the Fe-B alloy changes slightly with the boron content. The wear rate of the Fe94.3B5.7 alloy with about 30 vol. dendrite t-Fe2B is only one third of Fe 75B25 alloy with 15 vol. dendrite and Fe 67B33 alloy with 90 vol. dendrite in the high sliding speed. First, a hard t-Fe2B phase reduced the wear of the Fe-B alloy directly. Second, the compactly oxide layers resulting from oxidation of the -Fe on the worn surfaces also decreases the wear rate of Fe-B alloys. On the whole, the wear rate of the Fe94.3B5.7 is lower than Fe 67B33 and Fe75B25.

AB - The dry-sliding tribological properties of the dendrite composite eutectic Fe-B alloys (Fe94.3B5.7, Fe75B25 Fe67B33) were studied comparatively with various sliding speeds. The friction coefficient of the Fe-B alloy changes slightly with the boron content. The wear rate of the Fe94.3B5.7 alloy with about 30 vol. dendrite t-Fe2B is only one third of Fe 75B25 alloy with 15 vol. dendrite and Fe 67B33 alloy with 90 vol. dendrite in the high sliding speed. First, a hard t-Fe2B phase reduced the wear of the Fe-B alloy directly. Second, the compactly oxide layers resulting from oxidation of the -Fe on the worn surfaces also decreases the wear rate of Fe-B alloys. On the whole, the wear rate of the Fe94.3B5.7 is lower than Fe 67B33 and Fe75B25.

KW - dendrite composite

KW - Fe-B alloy

KW - friction

KW - wear mechanism

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Improved wear resistance of dendrite composite eutectic Fe-B alloy

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Keywords

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