Processing and properties of bulk and cellular carbon-bonded refractory materials

Luchini, Bruno

05 September 2019

In this manuscript, distinct problems concerning carbon-bonded materials processing and characterization were analyzed, from bulk to cellular samples. The main motivation was to address central topics that would enhance the comprehension of the material’s behavior, as well as trigger targeted improvements. Some of the topics this thesis covers are: Non-linear Young’s modulus behavior of carbon-bonded alumina at high temperatures; Influence of the processing route on the cold crushing strength of carbon-bonded alumina foam filters; Geometric characterization of ceramic foam filters as a tool to understand processing parameters; Use of advanced techniques such as computer tomography and finite element modelling to correlate processing parameters and mechanical behavior. In most of the analyses, non-standard computational strategies were adopted. In those cases, algorithms were written to facilitate the evaluations, or even enable it in the first place. All the algorithms’ concepts are described in this thesis and their codes are available in the Appendices. The current work was carried out within the framework of the Collaborative Research Center 920 (CRC 920) “Multifunctional filters for metal melt filtration - a contribution to zero defect materials” at the Technische Universität Bergakademie Freiberg funded by the German Research Foundation (DFG).

info:eu-repo/classification/ddc/620

ddc:620

Aluminiumoxide

Feuerfester Stoff

Kohlenstoffwerkstoff

Vielzellwerkstoff

Elastizitätsmodul

Computertomografie

Functionalization of carbon-bonded ceramic foam filters with nano-scaled materials for steel melt filtration

Storti, Enrico

23 April 2018

In order to improve the purity of steel castings, the use of special reactive coatings on carbon-bonded ceramic foam filters was explored. Carbon nanotubes were dispersed in water by means of ultrasonic treatment, using xanthan gum to stabilize the nanotubes in suspension and control the rheological behavior. The coatings were applied by cold spraying and binding was achieved during heat treatment in reducing atmosphere, thanks to an artificial pitch added to the slurry. The coated filters were successfully immersed in molten steel for different times. The thickness of the first alumina layer generated at the interface was independent of the immersion time: concentration gradients through its thickness suggested that the formation of this structure is limited by diffusion. Investigation of the steel after solidification by means of ASPEX showed that the presence of the coating influenced the size as well as the chemical composition of the remaining inclusions. Nano-coated filters had the best filtration efficiency (up to 95% for alumina inclusions after 10 s), but longer tests resulted in worse performance. In addition, coatings based on calcium aluminates in combination with carbon showed an efficiency greater than 97% for steel samples taken directly from the melt.

Filtration

Stahlschmelze

Einschlüsse

Keramikschaumfilter

kohlenstoffgebundenes Aluminiumoxid

CNTs

Calciumaluminate

Elektrospinnen

Magnesiumborat

Filtration

Steel melt

Inclusions

Ceramic foam filters

Carbon-bonded alumina

CNTs

Calcium aluminates

Electrospinning

Magnesium borate

ddc:620

Metallschmelze

Filtration

Schaumkeramik

Aluminiumoxide

Kohlenstoff

Calciumaluminate

Functionalization of carbon-bonded ceramic foam filters with nano-scaled materials for steel melt filtration

Storti, Enrico

23 March 2018

In order to improve the purity of steel castings, the use of special reactive coatings on carbon-bonded ceramic foam filters was explored. Carbon nanotubes were dispersed in water by means of ultrasonic treatment, using xanthan gum to stabilize the nanotubes in suspension and control the rheological behavior. The coatings were applied by cold spraying and binding was achieved during heat treatment in reducing atmosphere, thanks to an artificial pitch added to the slurry. The coated filters were successfully immersed in molten steel for different times. The thickness of the first alumina layer generated at the interface was independent of the immersion time: concentration gradients through its thickness suggested that the formation of this structure is limited by diffusion. Investigation of the steel after solidification by means of ASPEX showed that the presence of the coating influenced the size as well as the chemical composition of the remaining inclusions. Nano-coated filters had the best filtration efficiency (up to 95% for alumina inclusions after 10 s), but longer tests resulted in worse performance. In addition, coatings based on calcium aluminates in combination with carbon showed an efficiency greater than 97% for steel samples taken directly from the melt.

info:eu-repo/classification/ddc/620

ddc:620

Functional coatings for steel melt filtration

Schmidt, Anne

29 March 2022

In order to considerably improve the quality of steel products, efforts are being made to increase the cleanness of steel. It is known that the size, type and distribution of non-metallic inclusions (NMIs) in metals significantly influence their mechanical properties. Within the frame of the Collaborativ Research Centre 920 'Multifunc-tional filters for metal melt filtration – a contribution to zero defect materials.”, carbon-bonded alumina filters for steel melt filtration has been investigated. In the present thesis, the interactions between coated carbon-bonded alumina filters and a steel melt were investigated in more detail, with the porous coatings being based on alumina. The time-depended behaviour was evaluated by immersing coated filters for different dwell times. After the immersion tests, the microstructure of the filter surface and the NMIs remaining in the solidified steel were examined to comprehend the interactions. The here presented results imply that carbon of the carbon-bonded alumina sub-strate took part in the filter–steel interactions. The presence of dissolved carbon at the filter–steel melt interface is essential to promote alumina dissolution and pre-cipitation processes. Thereby, the melt was locally supersaturated with aluminium, which reacted with dissolved oxygen to form secondary corundum. During these interactions, a liquid oxide film was formed directly at the ceramic surface and provided nuclei for heterogeneous nucleation of secondary corundum. After immersion during cooling, a characteristic layer built-up formed at the filters surface. All alumina-based coated filters contributed to the filtration of especially alumina-based NMIs, and outperformed the uncoated carbon-bonded alumina filter. During the first experimental trials, it became obvious that the thermal shock resistance of the alumina coating has to be enhanced. For this purpose, a material combination was investigated which so far has not been used as a coating material to the author’s knowledge: alumina-zirconia-titania in the ration 95 : 2.5 : 2.5. This material is known for its excellent thermal shock resistance. Thereby, the influence of zirconia or titania doping of the coating were considered. The addition of titania enhanced wetting of this filter by the steel melt. As a result, alumina inclusions of the steel melt were modified: they were more in number, but distinctly smaller compared to trials without filter or the immersion of the other filter types. Especially, the decreased average area of the alumina inclusions is interesting because the particle size of NMIs strongly influences the fatigue life of a steel product. The deformability of a steel product, however, is determined by the amount of NMIs. Thus, the modification of alumina inclusions by adding titania to the filter coating might present a way to tailor these inclusions depending on the product’s application.

info:eu-repo/classification/ddc/620

ddc:620

Stahl

Schmelzinfiltration

Reaktionsgebundenes Aluminiumoxid

Filter

Abscheidung

Korund

Raman spectroscopic studies of carbon-bonded alumina filters and their binders

Brehm, Simon

08 December 2023

Carbon-bonded alumina filters and their binders, lactose, tannin and CarboresP, were investigated by Raman spectroscopy. Special emphasis was placed on the pyrolysis study of the binders. In situ measurements were performed on the tannins gallic acid, ellagic acid and tannic acid to determine the pyrolysis temperatures and products. Furthermore, the binder samples fired in a reducing atmosphere in a coke bed were analyzed by Raman spectroscopy and their transition from an amorphous carbon system to nanocrystalline graphite was observed. The influence of different binders on the carbon-bound alumina filters was studied, as well as the influence of different additives. However, no significant difference was observed between samples with different binder compositions or with additives. In addition, Raman measurements on the spinel MgAlON indicate an increased disorder of the structure due to the incorporated nitrogen.

info:eu-repo/classification/ddc/530

ddc:530

Metallschmelze

Keramischer Filter

Organisches Bindemittel

Lactose

Tannine

Pyrolyse

In situ

Raman-Spektroskopie