40 research outputs found
Comparison of steel desulphurisation at homogenisation station with physical modelling results
The paper deals with evaluation of relevant information about transfer processes taking place in the interface slag
– metal and with the assessment of the rate and course of steel desulphurization. The study of mentioned processes
took place with the verification of the results obtained by the plant experiments in the homogenization station using
180 t ladle and in the physical model of the ladle in the geometrical scale 1 : 9 supplemented by homogenization
nozzle. Plant and physical experiments were based on similar methodology. Samples of metal and slag were taken in regular time intervals for following evaluation of kinetics of the sulphur loss in the metal and appropriate increase of sulphur contain in the slag.Web of Science54461461
Physical modelling of degassing process by blowing of inert gas
This paper deals with the possibilities of using physical modelling to study the degassing of metal melt during its treatment in the refining ladle. The method of inert gas blowing, so-called refining gas, presents the most common operational technology for the elimination of impurities from molten metal, e.g. for decreasing or removing the hydrogen content from liquid aluminium. This refining process presents the system of gas-liquid and its efficiency depends on the creation of fine bubbles with a high interphase surface, uniform distribution, long period of its effect in the melt, and mostly on the uniform arrangement of bubbles into the whole volume of the refining ladle. Physical modelling represents the basic method of modelling and it makes it possible to obtain information about the course of refining processes. On the basis of obtained results, it is possible to predict the behaviour of the real system during different changes in the process. The experimental part focuses on the evaluation of methodical laboratory experiments aimed at the proposal and testing of the developed methods of degassing during physical modelling. The results obtained on the basis of laboratory experiments realized on the specific physical model were discussed.Web of Science63299298
Physical modelling of tundish slag entrainment under various technological conditions
This paper deals with the issue of physical modelling of vortexes creation and tundish slag entrainment over the mouth of the nozzle into the individual casting strands. Proper physical model is equivalent to the operational continuous casting machine No. 2 in TRINECKE ZELEZARN, a.s. Physical modelling methodology and simulated operational conditions are shortly described. Physical modelling was used for the evaluation of current conditions of steel casting at the application of different impact pads in the tundish. Further, laboratory measurement on the physical model aiming the determination of exact critical periods of vortexes creation and study of the slag entrainment as a consequence of changes in surface level during the tundish refilling to standard level were realised. The obtained results were analysed and discussed.Web of Science6231471146
Research and development of the solidification of slab ingots from special tool steels
The paper describes the research and development of casting and solidification of slab ingots from special tool steels by means of numerical modelling using the finite element method. The pre-processing, processing and post-processing phases of numerical modelling are outlined. Also, problems with determining the thermophysical properties of materials and heat transfer between the individual parts of the casting system are discussed. Based on the type of grade of tool steel, the risk of final porosity is predicted. The results allowed to improve the production technology of slab ingots, and also to verify the ratio, the chamfer and the external/internal shape of the wall of the new designed slab ingots.Web of Science6231458145
WPŁYW WARUNKÓW PROWADZENIA bezpośredniej ANALIZY termicznej NA OKREŚLENIE TEMPERATUR WYSOKO TEMPERATUROWYCH PRZEMIAN FAZOWYCH
Thermo-physical and thermodynamic properties of metallic systems represent some of the most important data that allows to describe their behaviour under strictly specified conditions. These data are the basic, input data for simulative programs, which can model this behaviour and they can be applied to real conditions. Method of direct thermal analysis is the one of the methods of enabling to obtain such data. This paper deals with application of this method on particular sample of pure standard material. The experimental laboratory system for thermal analysis Netzsch STA 449 F3 Jupiter was used for experimental measurements. This paper is studying the influence of experimental conditions on the obtained temperature of phase transformations and on shift of phase transformation temperatures with respect to the monitored experimental conditions, accuracy and credibility of the measured data. Acquired values of this data could be significantly influenced by experimental conditions, size (mass) of samples, purity of inert atmosphere and also by regimes of controlled heating and cooling rates.Właściwości fizyczne i termodynamiczne układów metalicznych stanowią jedne z najważniejszych danych, które
pozwalają opisać ich zachowanie w ściśle określonych warunkach. Dane te są podstawowymi danymi wejściowymi
dla programu, który może symulować model tych zachowań i które mogą być zastosowane do rzeczywistych warunków.
Metoda prostej (bezpośredniej) analizy termicznej jest jedną z metod pozwalających na uzyskanie takich danych.
Niniejszy artykuł dotyczy zastosowania tej metody, w szczególności próbki czystego materiału standardowego. Do
pomiarów eksperymentalnych było używane urządzenie dla analizy termicznej Netzsch STA 449 F3 Jupiter. W artykule
analizowano wpływ warunków doświadczalnych na uzyskane temperatury przemian fazowych oraz na zmiany temperatur
przemian fazowych z uwzględnieniem monitorowanych warunków doświadczalnych, dokładności i wiarygodności danych
pomiarowych. Warunki doświadczalne, wielkości (masa) próbek, czystość atmosfery obojętnej, a przedziały kontrolowanej
szybkości ogrzewania i chłodzenia mogą w znaczący sposób wpływać na otrzymane wartości tych danych.Web of Science6042871286
Study of casting and solidification of slab ingot from tool steel using numerical modelling
The main problem in the production of forgings from tool steels, especially thick plates, blocks, pulleys and rods which are used for special machine components for demanding applications, it is the inhomogeneous structure with segregations, cracks in segregations or complex type of non-metallic inclusions MnS and TiCN. These forgings are actually produced from conventional forging ingots. Due to the size of forgings, it would be interesting the production of these forgings from slab ingots. It is possible that the production of forgings from slab ingots (which are distinguished by a characteristic aspect ratio A/B), it would reduce the occurrence of segregations. The paper presents the verification of the production process of slab steel ingots in particular by means of numerical modelling using finite element method. The paper describes the pre-processing, processing and post-processing phases of numerical modelling. The attention was focused on the prediction of behavior of hot metal during the mold filling, on the verification of the final porosity, of the final segregation and on the prediction of risk of cracks depending on the actual geometry of the mold.Web of Science6042885287
Prediction of qualitative parameters of slab steel ingot using numerical modelling
The paper describes the verification of casting and solidification of heavy slab ingot weighing 40 t from tool steel by
means of numerical modelling with use of a finite element method. The pre-processing, processing and post-processing
phases of numerical modelling are outlined. Also, the problems with determination of the thermodynamic
properties of materials and with determination of the heat transfer between the individual parts of the casting
system are discussed. The final porosity, macrosegregation and the risk of cracks were predicted. The results allowed
us to use the slab ingot instead of the conventional heavy steel ingot and to improve the ratio, the chamfer and the
external shape of the wall of the new design of the slab ingot.Web of Science55339839
Reduction of copper slag with the use of carbon granulates
The investigation results on the reduction of slag from fl ash smelting furnace and the use of carbon granulates obtained
from fi ne-grained waste materials of both the coal enrichment and coking processes have been presented
in the paper. The investigation results on the reduction of slag from fl ash furnace and the use of carbon granulates
obtained from fi ne-grained waste materials of both the coal enrichment and coking processes have been presented
in the paper.Web of Science53458758
Study of solidification of continuously cast steel round billets using numerical modelling
The paper is dedicated to the verification of solidification of continuously cast round steel billets using numerical
modelling based on the finite element method. The aim of numerical modelling is to optimize the production of continuously
cast steel billets of round format. The paper describes the pre-processing, processing and post-processing phases of numerical
modelling. Also, the problems with determination of the thermodynamic properties of materials and the heat transfer between
the individual parts of the casting system, including the definition of the heat losses along the casting strand in the primary
and secondary cooling, were discussed. The first results of numerical simulation show the so-called thermal steady state of
continuous casting. The temperature field, the metallurgical length and the thickness of the shell at the end of the mould were
predicted. The further research will be concentrated on the prediction the risk of the cracks and the porosity based on the
different boundary conditions.Web of Science62122622
Numerical modelling of macrosegregation in heavy steel ingot
The paper presents new knowledge and experience from numerical modelling of macrosegregation in heavy steel ingot using ProCAST software. The main aim of numerical modelling realized under the conditions of the Department of Metallurgy and Foundry and Regional Materials Science and Technology Centre at VSB-TU Ostrava is the optimization of the production of heavy steel ingots produced in V´ITKOVICE HEAVY MACHINERY a.s. Input parameters of computation were determined by the real conditions of parallel experimental casting of a 90-ton steel ingot. The input data were also verified by thermal analysis and thermography measurement. The numerical results of macrosegregation were compared with the chemical analysis evaluated in a real ingot section. According to the comparison, attention will be focused next on determination of the effect of boundary conditions of filling and solidification of the ingot on the size of macrosegregation.Web of Science58117717