GRK 2802: IMPROVEMENT OF THE PROCESSABILITY AND THE PROPERTIES OF LIGNIN AND COLLAGEN BONDED MGO-C REFRATORY MATERIALS BY ETHYLENE GLYCOL ADJUSTMENT
Type of the data | Dataset | |
Total size of the dataset | 2190551 | |
Author | Stadtmüller, Till Manon Jannis | |
Upload date | 2026-02-16T18:12:08Z | |
Publication date | 2026-02-16T18:12:08Z | |
Publication date | 2026-02-16 | |
Abstract of the dataset | This study systematically investigates the influence of the ethylene glycol content on the physical properties of lignin- and collagenbonded MgO-C refractory materials, particularly the compressibility, density, and porosity. The results show that an ethylene glycol content of 1.5 wt.% results optimal material properties, achieving the highest geometric bulk density, lowest open porosity, and maximum cold crushing strength of the experimental series. This work highlights the crucial role of the moisture content on the processability and its impact on the mechanical properties of the final product. The findings provide valuable insights into optimizing the binder systems of MgO-C materials, leading to improved production processes and enhanced performance in hightemperature applications. | |
Public reference to this page | https://opara.zih.tu-dresden.de/handle/123456789/2079 | |
Publisher | Technische Universität Bergakademie Freiberg | |
Specification of the discipline(s) | 4::43 | |
Title of the dataset | GRK 2802: IMPROVEMENT OF THE PROCESSABILITY AND THE PROPERTIES OF LIGNIN AND COLLAGEN BONDED MGO-C REFRATORY MATERIALS BY ETHYLENE GLYCOL ADJUSTMENT | |
Project abstract | The focus of the doctoral research project P1 within the research training group GRK2802 was on the functionalization of sustainable binders as alternatives to conventional binders, with particular emphasis on collagen and lignin. In addition, the influence and interaction of MgO-C recyclates on sustainable MgO-C grades were investigated, with MgO-C recyclate contents of up to 47.5 wt.-%. In order to develop competitive and industrially applicable sustainable MgO-C types, suitable additives were employed to improve material properties, with a special focus on enhancing oxidation resistance and mechanical properties. | |
Funding Acknowledgement | 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) | https://tu-freiberg.de/en/research/grk2802 | |
Project title | GRK 2802: IMPROVEMENT OF THE PROCESSABILITY AND THE PROPERTIES OF LIGNIN AND COLLAGEN BONDED MGO-C REFRATORY MATERIALS BY ETHYLENE GLYCOL ADJUSTMENT |