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Combinatorial development and high throughput materials characterisation of steels
Ironmaking & Steelmaking, Volume: 42, Issue: 10, Pages: 727 - 733
Swansea University Authors: Steve Brown, Nicholas Lavery , Cameron Pleydell-Pearce
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DOI (Published version): 10.1179/0301923315Z.000000000419
Abstract
A series of small iron specimens with minor additions of C, Si and Mn were manufactured via induction melting and characterised using a high throughput methodology. The aim was to analyse the high throughput approach itself, not the effects of minor additions to steel. Despite their small size, the...
Published in: | Ironmaking & Steelmaking |
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ISSN: | 0301-9233 1743-2812 |
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2015
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URI: | https://cronfa.swan.ac.uk/Record/cronfa23038 |
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2019-09-16T14:53:22.6186842 v2 23038 2015-09-10 Combinatorial development and high throughput materials characterisation of steels 07a865adc76376646bc6c03a69ce35a9 Steve Brown Steve Brown true false 9f102ff59824fd4f7ce3d40144304395 0000-0003-0953-5936 Nicholas Lavery Nicholas Lavery true false 564c480cb2abe761533a139c7dbaaca1 Cameron Pleydell-Pearce Cameron Pleydell-Pearce true false 2015-09-10 FGSEN A series of small iron specimens with minor additions of C, Si and Mn were manufactured via induction melting and characterised using a high throughput methodology. The aim was to analyse the high throughput approach itself, not the effects of minor additions to steel. Despite their small size, the trends in measured standard mechanical properties were consistent with published data, and target alloy compositions were achieved to a sufficient degree of accuracy. This is most encouraging as the experimental approaches described here delivered results in a very short time frame, with time per composition estimated to be < 2 h per sample. Such an approach would appear to be an excellent precursor to more traditional, expensive and time consuming alloy development methods used by industry. Limitations of the methodology are described, and key bottlenecks are identified. However, the use of small specimens to quantify trends in properties of steels and identify possible new alloys is potentially a valuable addition to the development of new steels. Journal Article Ironmaking & Steelmaking 42 10 727 733 0301-9233 1743-2812 11 10 2015 2015-10-11 10.1179/0301923315Z.000000000419 COLLEGE NANME Science and Engineering - Faculty COLLEGE CODE FGSEN Swansea University 2019-09-16T14:53:22.6186842 2015-09-10T23:27:09.0085474 Faculty of Science and Engineering School of Engineering and Applied Sciences - Uncategorised N. P. Lavery 1 S. Mehraban 2 C. Pleydell-Pearce 3 S. G. R. Brown 4 D. J. Jarvis 5 W. Voice 6 M. Brunnock 7 Steve Brown 8 Nicholas Lavery 0000-0003-0953-5936 9 Cameron Pleydell-Pearce 10 0023038-30032016085831.pdf LaveryCombinatorialSteels2015.pdf 2016-03-30T08:58:31.8200000 Output 2077566 application/pdf Accepted Manuscript true 2016-09-03T00:00:00.0000000 true |
title |
Combinatorial development and high throughput materials characterisation of steels |
spellingShingle |
Combinatorial development and high throughput materials characterisation of steels Steve Brown Nicholas Lavery Cameron Pleydell-Pearce |
title_short |
Combinatorial development and high throughput materials characterisation of steels |
title_full |
Combinatorial development and high throughput materials characterisation of steels |
title_fullStr |
Combinatorial development and high throughput materials characterisation of steels |
title_full_unstemmed |
Combinatorial development and high throughput materials characterisation of steels |
title_sort |
Combinatorial development and high throughput materials characterisation of steels |
author_id_str_mv |
07a865adc76376646bc6c03a69ce35a9 9f102ff59824fd4f7ce3d40144304395 564c480cb2abe761533a139c7dbaaca1 |
author_id_fullname_str_mv |
07a865adc76376646bc6c03a69ce35a9_***_Steve Brown 9f102ff59824fd4f7ce3d40144304395_***_Nicholas Lavery 564c480cb2abe761533a139c7dbaaca1_***_Cameron Pleydell-Pearce |
author |
Steve Brown Nicholas Lavery Cameron Pleydell-Pearce |
author2 |
N. P. Lavery S. Mehraban C. Pleydell-Pearce S. G. R. Brown D. J. Jarvis W. Voice M. Brunnock Steve Brown Nicholas Lavery Cameron Pleydell-Pearce |
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Journal article |
container_title |
Ironmaking & Steelmaking |
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42 |
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10 |
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727 |
publishDate |
2015 |
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Swansea University |
issn |
0301-9233 1743-2812 |
doi_str_mv |
10.1179/0301923315Z.000000000419 |
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Faculty of Science and Engineering |
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Faculty of Science and Engineering |
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School of Engineering and Applied Sciences - Uncategorised{{{_:::_}}}Faculty of Science and Engineering{{{_:::_}}}School of Engineering and Applied Sciences - Uncategorised |
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description |
A series of small iron specimens with minor additions of C, Si and Mn were manufactured via induction melting and characterised using a high throughput methodology. The aim was to analyse the high throughput approach itself, not the effects of minor additions to steel. Despite their small size, the trends in measured standard mechanical properties were consistent with published data, and target alloy compositions were achieved to a sufficient degree of accuracy. This is most encouraging as the experimental approaches described here delivered results in a very short time frame, with time per composition estimated to be < 2 h per sample. Such an approach would appear to be an excellent precursor to more traditional, expensive and time consuming alloy development methods used by industry. Limitations of the methodology are described, and key bottlenecks are identified. However, the use of small specimens to quantify trends in properties of steels and identify possible new alloys is potentially a valuable addition to the development of new steels. |
published_date |
2015-10-11T03:27:19Z |
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1763751011018604544 |
score |
11.030604 |