Comparison of empirical and predicted substrate temperature during surface melting of microalloyed steel using TIG technique and considering three shielding gases
- Submitting institution
-
Glasgow Caledonian University
- Unit of assessment
- 12 - Engineering
- Output identifier
- 33268228
- Type
- D - Journal article
- DOI
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10.1016/j.apsusc.2017.11.014
- Title of journal
- Applied Surface Science
- Article number
- -
- First page
- 179
- Volume
- 477
- Issue
- -
- ISSN
- 0169-4332
- Open access status
- Technical exception
- Month of publication
- November
- Year of publication
- 2017
- URL
-
-
- Supplementary information
-
-
- Request cross-referral to
- -
- Output has been delayed by COVID-19
- No
- COVID-19 affected output statement
- -
- Forensic science
- No
- Criminology
- No
- Interdisciplinary
- No
- Number of additional authors
-
4
- Research group(s)
-
-
- Proposed double-weighted
- No
- Reserve for an output with double weighting
- No
- Additional information
- This paper presents a mathematical model based on the Rosenthal approach to predict the temperature changes that occurred during the deposition of ceramic particles on top of metal surface when using Tungsten Inert Gas (TIG) technique to create a metal matrix composite. Its key contribution allows for more predictable and accurate results in terms of resulting microstructure which is essential for predicting mechanical properties, rather than trial and error experiments. This paper is published in the prestigious Applied Surface science Journal which has an Impact Factor 5.155 targeting the researchers in the area of surface engineering.
- Author contribution statement
- -
- Non-English
- No
- English abstract
- -
