FeB/Fe2B phase transformation during SPS pack-boriding : boride layer growth kinetics
The iron boride layer growth kinetics in mild steel through the spark plasma sintering (SPS) pack-boriding technique is investigated at 850 °C with different boriding durations (maximum 240 min). Results show that both FeB and Fe2B layers form and grow on the mild steel surface with the FeB layer on...
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sg-ntu-dr.10356-955982023-03-04T17:18:30Z FeB/Fe2B phase transformation during SPS pack-boriding : boride layer growth kinetics Yu, L. G. Chen, X. J. Khor, Khiam Aik Sundararajan, G. School of Mechanical and Aerospace Engineering DRNTU::Engineering::Mechanical engineering The iron boride layer growth kinetics in mild steel through the spark plasma sintering (SPS) pack-boriding technique is investigated at 850 °C with different boriding durations (maximum 240 min). Results show that both FeB and Fe2B layers form and grow on the mild steel surface with the FeB layer on the top of Fe2B sublayer in the samples with boriding duration less than 90 min. However, at longer boriding duration, the top FeB layer eventually ceases growing, starts to diminish, and, finally disappears completely by transforming into the Fe2B phase. Numerical simulation is implemented to explain this phenomenon. Subsequently, the diffusion coefficient of boron in FeB and Fe2B phase is obtained through fitting the experimental results into the model. The simulation results are found to be in good agreement with the experimental results, and the estimated diffusion coefficients of boron in FeB and Fe2B phases as 2.33 × 10−9 and 4.67 × 10−9 cm2/s, respectively. Both the simulation and experimental results reveal that the Fe2B mono-phase layer can be obtained through the transformation of FeB to Fe2B phase due to the depletion of boron concentration in the boriding medium, and is indifferent to the formation of FeB phase at the very onset of the boriding process. This provides a new approach to overcome the side effect of FeB formation in borided components. Accepted version 2012-06-22T00:55:51Z 2019-12-06T19:18:02Z 2012-06-22T00:55:51Z 2019-12-06T19:18:02Z 2005 2005 Journal Article Yu, L. G., Chen, X. J., Khor, K. A., & Sundararajan, G. (2005). FeB/Fe2B phase transformation during SPS pack-boriding: Boride layer growth kinetics. Acta Materialia, 53(8), 2361–2368. https://hdl.handle.net/10356/95598 http://hdl.handle.net/10220/8235 10.1016/j.actamat.2005.01.043 en Acta materialia © 2005 Acta Materialia Inc. Published by Elsevier Ltd. This is the author created version of a work that has been peer reviewed and accepted for publication by Acta Materialia, Elsevier. It incorporates referee’s comments but changes resulting from the publishing process, such as copyediting, structural formatting, may not be reflected in this document. The published version is available at DOI: [http://dx.doi.org/10.1016/j.actamat.2005.01.043]. 17 p. application/pdf |
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DRNTU::Engineering::Mechanical engineering Yu, L. G. Chen, X. J. Khor, Khiam Aik Sundararajan, G. FeB/Fe2B phase transformation during SPS pack-boriding : boride layer growth kinetics |
| description |
The iron boride layer growth kinetics in mild steel through the spark plasma sintering (SPS) pack-boriding technique is investigated at 850 °C with different boriding durations (maximum 240 min). Results show that both FeB and Fe2B layers form and grow on the mild steel surface with the FeB layer on the top of Fe2B sublayer in the samples with boriding duration less than 90 min. However, at longer boriding duration, the top FeB layer eventually ceases growing, starts to diminish, and, finally disappears completely by transforming into the Fe2B phase. Numerical simulation is implemented to explain this phenomenon. Subsequently, the diffusion coefficient of boron in FeB and Fe2B phase is obtained through fitting the experimental results into the model. The simulation results are found to be in good agreement with the experimental results, and the estimated diffusion coefficients of boron in FeB and Fe2B phases as 2.33 × 10−9 and 4.67 × 10−9 cm2/s, respectively. Both the simulation and experimental results reveal that the Fe2B mono-phase layer can be obtained through the transformation of FeB to Fe2B phase due to the depletion of boron concentration in the boriding medium, and is indifferent to the formation of FeB phase at the very onset of the boriding process. This provides a new approach to overcome the side effect of FeB formation in borided components. |
| author2 |
School of Mechanical and Aerospace Engineering |
| author_facet |
School of Mechanical and Aerospace Engineering Yu, L. G. Chen, X. J. Khor, Khiam Aik Sundararajan, G. |
| format |
Article |
| author |
Yu, L. G. Chen, X. J. Khor, Khiam Aik Sundararajan, G. |
| author_sort |
Yu, L. G. |
| title |
FeB/Fe2B phase transformation during SPS pack-boriding : boride layer growth kinetics |
| title_short |
FeB/Fe2B phase transformation during SPS pack-boriding : boride layer growth kinetics |
| title_full |
FeB/Fe2B phase transformation during SPS pack-boriding : boride layer growth kinetics |
| title_fullStr |
FeB/Fe2B phase transformation during SPS pack-boriding : boride layer growth kinetics |
| title_full_unstemmed |
FeB/Fe2B phase transformation during SPS pack-boriding : boride layer growth kinetics |
| title_sort |
feb/fe2b phase transformation during sps pack-boriding : boride layer growth kinetics |
| publishDate |
2012 |
| url |
https://hdl.handle.net/10356/95598 http://hdl.handle.net/10220/8235 |
| _version_ |
1759856910181335040 |