Dataset to the publication Functional grading of low alloy steel to 316 L by wire arc additive manufacturing – Microstructural and mechanical characterization of bi-metal interface
DOI:10.4121/f96bbd4f-86d3-4a34-a280-28c352e73b0a.v1
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DOI: 10.4121/f96bbd4f-86d3-4a34-a280-28c352e73b0a
DOI: 10.4121/f96bbd4f-86d3-4a34-a280-28c352e73b0a
Datacite citation style
Galan Argumedo, Jose Luis; Mahmoudiniya, Mahdi; Reinton, Elise; Kestens, Leo; Hermans, Marcel et. al. (2025): Dataset to the publication Functional grading of low alloy steel to 316 L by wire arc additive manufacturing – Microstructural and mechanical characterization of bi-metal interface. Version 1. 4TU.ResearchData. dataset. https://doi.org/10.4121/f96bbd4f-86d3-4a34-a280-28c352e73b0a.v1
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Dataset
by
Jose Luis Galan Argumedo
,
Mahdi Mahmoudiniya,
Elise Reinton,
Leo Kestens,
Marcel Hermans
,
Vera Popovich
,
Mahdi Mahmoudiniya,
Elise Reinton,
Leo Kestens,
Marcel Hermans
,
Vera Popovich
Dataset to the publication Functional grading of low alloy steel to 316 L by wire arc additive manufacturing – Microstructural and mechanical characterization of bi-metal interface. The data was obtained to describe the microstructural constituents formed at the diluted interface layer formed between low alloy and stainless steels after cladding one onto the other during multi-material additive manufacturing. The data is the one measured through metallurgical and mechanical characterization procedures. Data set includes the output of several techniques, including:
- Digital Image Correlation data (DIC) - measurement snapshots of engineering stress, correlated to lead levels measured
- Electron Backscatter Diffraction (EBSD) - crystallographic information files, including files and graphs shown in the related publication
- Electron Probe Microanalysis (EPMA) - Elemental quantification measurements, in wt%, as well Stacking Fault Energy and Martensite Start Temperature values derived from empirical relationships therefrom.
- Hardness Measurements - including geometrical and spatial data on every indentation made
- Scanning Transmission Electron Microscopy (STEM) micrographs and Electron Dispersive Spectroscpy (EDS) measurements therefrom
- ThermoCalc simulation results, including Scheil calculations as well as CCT figures for undiluted parent alloys and different degrees of dilution onto one another.
History
- 2025-07-09 first online, published, posted
Publisher
4TU.ResearchDataFormat
Spreadsheets/.xlsx; crystallographic mapping data /.osc; OIM project files /.oi; crystallogrpahic mapping meta-data files /.txt; PDF files /.pdf; Images /.tiff; Images /.png; Presentations /.pptx; jupyter notebook files /.ipynbAssociated peer-reviewed publication
Functional grading of low alloy steel to 316 L by wire arc additive manufacturing – Microstructural and mechanical characterization of bi-metal interfaceFunding
- Application of Functionally Graded Materials to Extra-Large Structures (grant code Grant agreement ID: 862017) [more info...] Horizon2020 - INDUSTRIAL LEADERSHIP - Leadership in enabling and industrial technologies - Advanced materials
Organizations
TU Delft, Faculty of Mechanical Engineering, Department of Materials Science and Engineering;Ghent University, Faculty of Engineering and Architecture, Department of Electromechanical, Systems and Metal Engineering;
M2i, Materials innovation institute
DATA
Files (1)
- 2,389,464,983 bytesMD5:
5c028417170ac8045dabbeb5314b6102DataRepository 10-1016-j-jmatprotec-2024-118305.zip
