Different Approaches to Trace the Source of Non-Metallic Inclusions in Steel
Research output: Chapter in Book/Report/Conference proceeding › Conference contribution
Authors
Organisational units
External Organisational units
- Christian Doppler Laboratory for Inclusion Metallurgy in Advanced Steelmaking, Leoben
- voestalpine Stahl Linz GmbH
Abstract
Improvement of steel cleanness requires detailed knowledge about the formation of non-metallic inclusions. Tracing inclusions
and potential sources is an effective tool for studying inclusion evolution. In the paper, two tracing approaches are evaluated.
First, classical tracer experiments are performed, where rare earth elements (REE) like La or Ce are deliberately added to the
melt on an industrial scale to mark the inclusions directly. Second, the natural REE multi-element fingerprint of the inclusions
is compared to the REE multi-element pattern of potential sources such as alloying and auxiliary materials. These REE
distributions profiles are interpreted by normalizing the REE fractions to reference values. REE contents are analyzed by
inductively coupled plasma mass spectrometry in all cases. Both approaches are applied to track the source of clogged material
in the submerged entry nozzle from Ti-ULC steel production. Results show a clear connection between inclusions resulting
from deoxidation and the clogged layer in the SEN.
and potential sources is an effective tool for studying inclusion evolution. In the paper, two tracing approaches are evaluated.
First, classical tracer experiments are performed, where rare earth elements (REE) like La or Ce are deliberately added to the
melt on an industrial scale to mark the inclusions directly. Second, the natural REE multi-element fingerprint of the inclusions
is compared to the REE multi-element pattern of potential sources such as alloying and auxiliary materials. These REE
distributions profiles are interpreted by normalizing the REE fractions to reference values. REE contents are analyzed by
inductively coupled plasma mass spectrometry in all cases. Both approaches are applied to track the source of clogged material
in the submerged entry nozzle from Ti-ULC steel production. Results show a clear connection between inclusions resulting
from deoxidation and the clogged layer in the SEN.
Details
| Original language | English |
|---|---|
| Title of host publication | AISTech 2023 - Proceedings of the Iron & Steel Technology Conference |
| Pages | 1115-1121 |
| Number of pages | 7 |
| DOIs | |
| Publication status | Published - 9 May 2023 |
| Event | AISTech 2023 - Huntington Place, Detroit, United States Duration: 8 May 2023 → 11 May 2023 |
Conference
| Conference | AISTech 2023 |
|---|---|
| Country/Territory | United States |
| City | Detroit |
| Period | 8/05/23 → 11/05/23 |
