Abstract
In the production of ULC steel grades via the RH process route, Al is added first for deoxidation after the end of decarburization and FeTi follows after a certain period of separation of alumina particles and the related reduction of the total oxygen content. The FeTi addition is well known to cause clogging problems in the following casting process.The analysis of plant data by voestalpine Stahl in Linz indicates an increasing clogging tendency with a higher Ti/Al ratio in the steel. Automated SEM/EDS investigations on lollipop samples show the existence of a newly nucleated Ti-containing alumina particle population after the FeTi addition. These particles are comparably smaller than the alumina particles and, even if thermodynamically unstable, they still exist as a large population of small particles in samples taken from the tundish.The addition of Al and FeTi into a molten steel sample with controlled initial oxygen activity for varying Ti/Al ratios was simulated in laboratory scale afterwards. Just like in the plant, a new population of small Ti-containing alumina particles nucleates, with the size and number depending on the Ti/Al ratio in the melt.Laboratory experiments and plant observations are in consistence with each other and indicate—for the underlying process route and process parameters—some countermeasures for the better control of clogging.
Highlights
Ti-stabilized ULC and IF steel grades frequently cause the build-up of oxide layers or oxide networks in the flow control system of the casting machine
The present paper addresses only one of these aspects, namely the formation of a new inclusion population due to the FeTi addition after RH treatment as a possible cause for clogging
The high number of small AT particles should be attracted by the submerged entry nozzle and result in a higher tendency towards clogging [10, 11]
Summary
Ti-stabilized ULC and IF steel grades frequently cause the build-up of oxide layers or oxide networks in the flow control system of the casting machine. This process is known as clogging and has a negative impact on the productivity and product quality. Differences in plant configurations, Al deoxidation and FeTi addition practices as well as the design of the fluid flow control system of the casting machine have a significant influence on clogging The present paper addresses only one of these aspects, namely the formation of a new inclusion population due to the FeTi addition after RH treatment as a possible cause for clogging
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