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X-ray micro-computed tomography scans of coated particles after mechano-fusion and process data for each experiment
Subtitle: Alumina (host particle) and polystyrene (guest particle)
Metadaten
| Ergänzende Titel | Subtitle: Alumina (host particle) and polystyrene (guest particle) | |
| Weitere mitwirkende Personen, Institutionen oder Unternehmen | dfg - Funder | |
| Weitere mitwirkende Personen, Institutionen oder Unternehmen | Friebel, Judith Miriam - Technische Universität Bergakademie Freiberg (orcid: 0000-0001-9431-3590) - ProjectLeader | |
| Weitere mitwirkende Personen, Institutionen oder Unternehmen | Peuker, Urs - Technische Universität Bergakademie Freiberg (ORCID: 0000-0002-8349-4493) - Supervisor | |
| Weitere mitwirkende Personen, Institutionen oder Unternehmen | Ditscherlein, Ralf - Technische Universität Bergakademie Freiberg (ORCID: 0000-0003-0233-4218) - ProjectMember | |
| Weitere mitwirkende Personen, Institutionen oder Unternehmen | Ditscherlein, Lisa - Technische Universität Bergakademie Freiberg (ORCID: 0000-0002-9452-9081) - ProjectMember | |
| Für den Inhalt der Forschungsdaten verantwortliche Person(en) | Friebel, Judith Miriam | |
| Beschreibung der weiteren Datenverarbeitung | micro-CT image data: Raw image data: reconstructed images of micro-CT scan Final image data 1: data segmented into alumina and polystyrene particle phase using Fiji Trainable Weka Segmentation 3D Final image data 2: segmented data of polystyrene particles is further processed using 3D Watershed Split (Fiji) | |
| Art der Erhebung der Daten | Experiment: particle coating experiments and subsequent structural analysis using X-ray micro-CT | |
| Verwendete Forschungsinstrumente | picobond module of picoline machinery platform (Hosokawa Alpine, Augsburg Germany) | |
| Verwendete Forschungsinstrumente | micro-CT ZEISS Xradia Versa 510 (Carl Zeiss, Oberkochen Germany) | |
| Zugrundeliegende Forschungsobjekte | PhysicalObject: Alumina coated with polystyrene | |
| Kurzbeschreibung | During the mechano-fusion experiments for particle coating available process data (time, rotational speed, temperature, power, torque) is recorded. Samples of alumina coated with polystyrene from three different experiments were scanned using the Zeiss Xradia 510 Versa X-ray micro-CT. The samples were prepared by dispersing coated particles over carbon tape, which was subsequentely rolled up. | |
| Angewendete Methoden oder Verfahren | dry particle coating by mechano-fusion sampling (rotary sample splitter) sample preparation (particles dispersed over carbon tape) X-ray micro-CT scan | |
| Inhaltsverzeichnis | One zip folder per experiment containing the process data as well as raw and segmented micro-CT image data | |
| Weitere Schlagwörter | X-ray micro-CT | |
| Weitere Schlagwörter | Mechano-fusion | |
| Weitere Schlagwörter | Coating structure analysis | |
| Sprache | eng | |
| Entstehungsjahr oder Entstehungszeitraum | 2022-2023 | |
| Veröffentlichungsjahr | 2023 | |
| Herausgeber | Technische Universität Bergakademie Freiberg | |
| Referenzen auf ergänzende Materialien | IsPartOf: 123456789/5896 (Handle) | |
| Inhalt der Forschungsdaten | Dataset: X-ray micro-CT scans of coated particles (raw images and segmented images) Process data (time stamp, rotational speed, power, torque, temperature) | |
| Inhaber der Nutzungsrechte | Technische Universität Bergakademie Freiberg | |
| Nutzungsrechte des Datensatzes | CC-BY-NC-4.0 | |
| Eingesetzte Software | Resource Processing: Fiji (ImageJ) 2.9.0/ 153t | |
| Angabe der Fachgebiete | Engineering | de |
| Angabe der Fachgebiete | Materials Science | de |
| Titel des Datensatzes | X-ray micro-computed tomography scans of coated particles after mechano-fusion and process data for each experiment |
Dateien zu dieser Ressource
Die Datenpakete erscheinen in:
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Publication: 3D Characterization of Dry Particle Coating Structures originating from the Mechano-Fusion Process [1]
A model particle system of alumina (host particle) and polystyrene (guest particle) is processed using mechano-fusion. Samples from three experiments with different process parameters (rotational speed and process time) are characterized concerning the resulting coating structures of guest particles on the surface of the host particle. Therefore, particle samples are prepared for a qualitative SEM analysis and quantiative micro-CT analysis. From the 3D micro-CT data, the structural descriptors coating thickness, coating efficiency and neighbooring behavior of the guest particles are quantified. The influence of the process parameters on the coating structures is discussed.