GRK 2802: Investigation of Thermo-Chemical Processes in Commercial MgO-C Refractory Bricks With and Without MgO-C Recyclate at Elevated Temperatures

References to related material
datacite.relatedItem.IsSupplementTo

https://doi.org/10.1002/adem.202502724

Type of the data
datacite.resourceTypeGeneral

Dataset

Type of the data
datacite.resourceTypeGeneral

Image

Type of the data
datacite.resourceTypeGeneral

Other

Total size of the dataset
datacite.size

34589999

Author
dc.contributor.author

Schramm, Alexander

Author
dc.contributor.author

Hubálková, Jana

Author
dc.contributor.author

Schimpf, Christian

Author
dc.contributor.author

Schemmel, Thomas

Author
dc.contributor.author

Aneziris, Christos G.

Author
dc.contributor.author

Weidner, Anja

Author
dc.contributor.author

Biermann, Horst

Upload date
dc.date.accessioned

2026-07-10T07:05:03Z

Publication date
dc.date.available

2026-07-10T07:05:03Z

Publication date
dc.date.issued

2026-07-10

Abstract of the dataset
dc.description.abstract

In the present study, the chemical processes occurring during high-temperature testing are investigated for two commercial MgO-C brick grades. One grade consists exclusively of virgin raw materials, while the other contains 47.5 wt.% MgO-C recyclate. High-temperature testing is conducted under argon atmosphere at ambient pressure using induction heating. To evaluate the effect of MgO-C recyclate incorporation on thermo-chemical processes, X-ray diffraction (XRD), electrothermal vaporization (ETV), differential thermal and thermogravimetric analysis (DTA/TG) coupled with mass spectrometry (MS) are applied. Scanning electron microscopy (SEM) combined with energy-dispersive X-ray spectroscopy (EDS) and electron backscatter diffraction (EBSD) provide phase characterization after exposure at 1300 °C and above. The results show that mechanisms typically occurring during the service of refractory materials such as the carbothermal reduction of magnesia, the incorporation of impurity phases into the newly formed MgO surface layer, and the deposition of calcium-rich phases and whisker-like structures also occur when MgO-C is exposed to the applied gas atmosphere. This confirms the relevance of the observed thermo-chemical processes and surface phase formation for real contact with molten steel and slag. Under the present test conditions, however, no significant influence of MgO-C recyclate incorporation on the thermo-chemical behavior of the coked MgO-C materials is detected.

Public reference to this page
dc.identifier.uri

https://opara.zih.tu-dresden.de/handle/123456789/2788

Publisher
dc.publisher

Technische Universität Bergakademie Freiberg

Specification of the discipline(s)
dc.subject.classification

4::43

Title of the dataset
dc.title

GRK 2802: Investigation of Thermo-Chemical Processes in Commercial MgO-C Refractory Bricks With and Without MgO-C Recyclate at Elevated Temperatures

Project abstract
opara.project.description

The focus of the doctoral research project P2 within the research training group GRK2802 was the evaluation of the thermo-mechanical properties of commercial MgO-C bricks, which were supplied by the industrial partner, Refratechnik Steel GmbH. The research concentrated on three grades of MgO-C bricks: while material F was produced exclusively from virgin raw materials, the two materials R contained 47.5 wt.-% MgO-C recyclate, which, however, possessed different carbon contents due to different sources of the recyclates.

Funding Acknowledgement
opara.project.fundingAcknowledgement

The dataset was generated within the framework of the Research Training Group GRK 2802 (project ID: 461482547) funded by the German Research Foundation (DFG).

Public project website(s)
opara.project.publicReference

https://tu-freiberg.de/en/research/grk2802

Project title
opara.project.title

GRK2802_P2_Thermo-mechanical Characterization of Commercial MgO-C Refractory Bricks Based on Recyclate

Files

Collections