Weld defect formation in rail thermite welds

Y. Chen; F. V. Lawrence; C. P.L. Barkan; J. A. Dantzig

doi:10.1243/0954409JRRT44

Weld defect formation in rail thermite welds

Y. Chen, F. V. Lawrence, C. P.L. Barkan, J. A. Dantzig

Civil and Environmental Engineering

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

Abstract

A previously developed heat transfer model is used to study the influence of welding parameters on weld defect development in thermite welds. Weld defect formation maps are constructed from a series of heat transfer simulations. For the current normal rail thermite welding conditions, it is found that shrinkage cavity formation can be avoided but cold-lap and centre-line defects are likely to occur. This study also shows that increasing the preheating time or the liquid temperature can suppress the development of cold-lap and centre-line defects but can lead to a slightly higher microporosity content in the railhead as well. Alternatively, it is found that instead of increasing the preheating time or the liquid temperature, the same effect can be achieved by increasing the 25 mm weld gap (standard) to a slightly larger value.

Original language	English (US)
Pages (from-to)	373-384
Number of pages	12
Journal	Proceedings of the Institution of Mechanical Engineers, Part F: Journal of Rail and Rapid Transit
Volume	220
Issue number	4
DOIs	https://doi.org/10.1243/0954409JRRT44
State	Published - 2006

Keywords

Centre-line defect
Microporosity
Rail thermite welding
Shrinkage cavity
Weld defect

ASJC Scopus subject areas

Mechanical Engineering

Online availability

10.1243/0954409JRRT44

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abstract = "A previously developed heat transfer model is used to study the influence of welding parameters on weld defect development in thermite welds. Weld defect formation maps are constructed from a series of heat transfer simulations. For the current normal rail thermite welding conditions, it is found that shrinkage cavity formation can be avoided but cold-lap and centre-line defects are likely to occur. This study also shows that increasing the preheating time or the liquid temperature can suppress the development of cold-lap and centre-line defects but can lead to a slightly higher microporosity content in the railhead as well. Alternatively, it is found that instead of increasing the preheating time or the liquid temperature, the same effect can be achieved by increasing the 25 mm weld gap (standard) to a slightly larger value.",

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AU - Chen, Y.

AU - Lawrence, F. V.

AU - Barkan, C. P.L.

AU - Dantzig, J. A.

PY - 2006

Y1 - 2006

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AB - A previously developed heat transfer model is used to study the influence of welding parameters on weld defect development in thermite welds. Weld defect formation maps are constructed from a series of heat transfer simulations. For the current normal rail thermite welding conditions, it is found that shrinkage cavity formation can be avoided but cold-lap and centre-line defects are likely to occur. This study also shows that increasing the preheating time or the liquid temperature can suppress the development of cold-lap and centre-line defects but can lead to a slightly higher microporosity content in the railhead as well. Alternatively, it is found that instead of increasing the preheating time or the liquid temperature, the same effect can be achieved by increasing the 25 mm weld gap (standard) to a slightly larger value.

KW - Centre-line defect

KW - Microporosity

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KW - Shrinkage cavity

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Weld defect formation in rail thermite welds

Abstract

Keywords

ASJC Scopus subject areas

Online availability

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