Testing ladle brick made by various factories

Conclusions The resistance of linings in steel-casting ladles depends on the working conditions and the construction of the lining, the quality of the brick laying during repairs of the working layer, and the resistance of the ladle brick. The greatest effect on the wear of the lining in ladles is exerted by the following working conditions: chemical composition of the slag, temperature of the metal being cast, the dwell time of metal and slag in the ladle during one casting, the height of the slag layer in the ladle, the thickness of the lining in each belt of the structure. The quality of the structure in the ladles is mainly determined by the size of the joints, the care with which they are filled with mortar, uniformity of drying and warming-up of the ladles before filling them with metal.The resistance of the ladle brick depends mainly on the apparent porosity and nature of the pores and the concentration of fluxes and mullite in the brick.The highest resistance in service was shown by Zaporozh'e ladle brick made from Polozhe kaolin and having the lowest apparent porosity. The concentration of iron oxides in the brick was moderate, and on average equalled 1.39%.In terms of falling resistance the ladle brick of the remaining concerns can be placed in the following order: Chasov-Yar, Semiluks, Bogdanovich, Magnitogorsk, and Borovich.In order to increase the resistance of steel casting ladle linings it is necessary to increase the resistance of the ladle brick by reducing the apparent porosity, using raw materials with low concentrations of fluxes and improving the firing in order to obtain the maximum conditions of the ladle, reducing to a minimum the quantity of slag and reducing the casting time; to use a more rational thickness for laying the ladles over the courses, taking into account better use of their capacity.Translated from Ogneupory, No.5, pp. 27–32, May, 1970.     

Improving the quality of chamotte made from Berlinsk clay

Conclusions The optimum firing temperature for Berlinsk clay to convert it into chamotte is 1300–1330°C. Above this temperature the chamotte bloats and has a low apparent density (below 2.10 g/cm³). The fireclay goods should be made from chamotte with an average or high apparent density (2.14–2.30 g/cm³).The articles made with the overtired chamotte have a high porosity and low apparent density. It is not recommended for use in firebrick production.Translated from Ogneupory, No. 2, pp. 14–16, February, 1981.     

Chamotte and semiacid ladle brick from Barzassk clays

Conclusions The Barzassk (basic O1 and O2, and semiacid PK1) clays are suitable for making chamotte and semiacid ladle brick. The production of refractories from these clays can be organized using the technological production scheme for chamotte articles made by semidry pressing. In order to increase the strength of the green products made from semiacid clays it is necessary to reprocess the bodies with an addition of sulfite lye on runner mixers with rollers.The resistance of the experimental chamotte and semiacid brick in a 300-ton ladle was practically the same as that of ladle brick made from Buskul'sk clay produced by the Magnitogorsk Metallurgical Combine.Translated from Ogneupory, No. 5, pp. 1–5, May, 1969.     

Strength of display glass

The strength of dual-display glass surfaces 0.64 mm (Corning 1737 glass) and 0.70 mm (Eagle²⁰⁰⁰ glass) thick is measured in the initial state and after annealing. Large dispersion of the strength of the glass before and after annealing is found. It is suggested that the low values of the strength are caused by the adverse conditions of storing and handling glass samples.