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Powłoki ograniczające utlenianie powierzchni wlewków stalowych w trakcie studzenia i nagrzewania

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Majchrowicz I. , Barański J. , Witek J. , Kania H.

Prace Instytutu Ceramiki i Materiałów Budowlanych

2018

tom R. 11, nr 34

49--61

W pracy przedstawiono wyniki badań nad możliwością zmniejszenia ilości zgorzeliny powstającej na powierzchni wlewków ciągłych podczas dwóch cykli produkcyjnych stali, a mianowicie ciągłego odlewania i ogrzewania wsadu (wlewków COS) do procesu walcowania. Cel ten starano się osiągnąć poprzez zastosowanie powłoki ceramicznej. Cztery powłoki wykonane z dwóch zawiesin i dwóch zoli kwasu krzemowego nałożono na powierzchnię wlewka stalowego. Powłoki nakładano w temperaturze otoczenia lub na płytki ogrzane do 850°C, następnie powlekane płytki ogrzewano do 1250°C. Pierwsza metoda symulowała warunki procesu obróbki plastycznej, podczas gdy druga – warunki procesu ciągłego odlewania. Określono zwilżalność stali przez zawiesiny i zole kwasu krzemowego w temperaturze pokojowej oraz w 850 i 1250°C za pomocą mikroskopu wysokotemperaturowego. Badania wykazały, że najlepsze wyniki (najmniejszą grubość zgorzeliny) uzyskano w przypadku zastosowania zawiesiny otrzymanej na bazie sproszkowanego szkła kwarcowego oraz zoli kwasu krzemowego napylonych na zimny wlewek. W przypadku zawiesiny, napylenie jej w temperaturze pokojowej spowodowało, że była ona trwała i nie uległa odspojeniu, jak w przypadku zawiesiny napylonej w 850°C. Z kolei napylenie zoli na zimno, dało w wyniku zdecydowanie cieńszą warstwę zgorzeliny i powłoki.

The paper presents results of investigations into the possibilities to reduce the amount of scale formed on the surface of continuous castings during two steel production cycles, namely continuous casting and heating of the batch (CC ingots) for the rolling process, using ceramic coatings. Four coatings made from two suspensions and two silicic acid sols were applied on the continuous castings surface. The coatings were applied onto the steel plates at ambient temperature, next the coated plates were heated to 1250°C or the coatings were applied onto the plates heated to 850°C. The first method simulated the conditions of the plastic processing process, while the second one – the conditions of the continuous casting process. The wettability of steel by precursors at room temperature as well as at 850°C and 1250°C was measured with a high-temperature microscope produced by Leitz. The investigations have shown that the best results are obtained for cold-spray coatings, in which case cold-spraying of sols resulted in a significantly thinner layer of scale and coating.

Analysis of the impact of the 5S tool and Standardization on the duration of the production process - case study

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Pawlak S. , Nowacki K. , Kania H.

Production Engineering Archives

2023

tom Vol. 29, Iss. 4

421-427

The high level of competition in the manufacturing industry requires the creation of working conditions that allow for the efficient implementation of production processes. One of the solutions enabling the adaptation of production stations to improve the work performed by employees is the implementation of a management system based on the Lean Manufacturing (LM) philosophy. The purpose of this article was to determine the potential impact of the implemented LM tools, in the form of 5S and standardization, on the efficiency of the production process in specific production conditions. The methodology of the conducted research included: obtaining data before and after the implementation of LM tools (in total 12 months). The data was used to determine the effectiveness of individual operations, and then to conduct a comparative analysis using statistical tests. It was found, among others, that the implementation of LM tools resulted in an increase in the efficiency of the manufacturing process by about 11 percentage points. The obtained results confirm the thesis that a manufacturing company, in order to maintain its position on a competitive market, can improve the efficiency of processes by using tools such as LM. The selection of tools must be adequate to the implemented processes, so that they bring measurable increase in efficiency.

Determination of an axial gas cyclone separator cut-off point by CFD numerical modeling

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Ryfa A. , Tokarski M. , Adamczyk W. , Klimanek A. , Bargiel P. , Białecki R. , Kocot M. , Niesler M. , Kania H. , Stecko J. , Czaplicka M.

Archives of Thermodynamics

2023

tom Vol. 44, no 4

535--562

This paper deals with the numerical simulation of a pilot-scale axial cyclone separator. The main purpose of this paper is to develop a numerical model that is able to foresee the cyclone separator cut-off point. This is crucial in blast furnace gas installation to capture large particles containing carbon and iron, while allowing smaller particles such as zinc and lead to pass through. The cut-off point must be designed to give a sufficiently high zinc and lead content in the sludge created after the second cleaning stage. This allows the sludge to become a commercial product. To design this cut-off point, an investigation of the influence of inlet gas velocity, temperature, and the angle of guiding vanes at the inlet was done. The developed CFD model was validated against experimental data on the fractional efficiency of the cyclone separator. The results were in good agreement with the experimental data for all parameters tested. The behavior of the particles inside the cyclone was also physically correct.