V. Vidojkovic scite author profile

In the recent decades, the use of unshaped monolithic refractories has been increasing greatly because of their significant advantages over other shaped refractory bricks of the same class. A low cement high alumina castable was synthetised and sintered at 1300°C in order to investigate thermal and mechanical properties, as well as thermal shock behavior. The water quench test was applied as an experimental method for thermal stability testing. Modification of the water quench test was performed by additional monitoring of the samples behavior during the water quench test such as implementation of image analysis and ultrasonic measurements. The image analysis program was applied on samples in order to measure the level of surface damage before and during the water quench test. Ultrasonic measurements were performed with the aim to measure the Young modulus of elasticity during the testing. Strength deterioration of the samples was calculated by the model based on ultrasonic velocity changes during the water quench test. The influence of monitoring the damage level before and during the quench experiment and its influence on thermal shock behavior will be discussed

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Preparation and properties of low cement castable sintered at different temperatures

Martinović

Majstrovic

Vidojkovic

et al. 2009

PAC

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The low cement high alumina castable (LCC) studied in this paper was synthesised, cured and then treated at different sintering temperatures. Since any inhomogeneity introduced during the castable preparation can remain inside the material degrading its properties and therefore the quality during service life, particular attention was given to the processing procedure in order to produce the material with the optimum characteristics. Composition of the castable regarding particle size distribution was adjusted according to the Andreassen's packing model. The samples were sintered at 1100, 1300 and 1600?C for three hours. Influence of the different sintering temperatures on the castable properties is discussed. Compressive and flexural strengths were determined by destructive testing method, while the water immersion method was used for determination of the bulk density and the water absorption. Changes of elastic properties and microstructure (porosity) were observed by the non-destructive testing methods, ultrasonic measurements and image analysis. Based on the results, it can be concluded that sintering temperature has strong influence on the properties of the LCC. Exceptionally good properties were obtained for the sample sintered at 1600?C, but it should be highlighted that the samples treated at 1100 and 1300?C were provided with good properties, too. This should not be neglected because of the energy saving importance, in cases where the material sintered at lower temperature satisfies the application requirements. .

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Mechanochemical Activation of (SeO2+Na2CO3) Mixture and Sodium Selenite Synthesis in Vibrational Mill

Branković

Vidojkovic

Milošević

1998

Journal of Solid State Chemistry

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Mechanochemical syntheses of inorganic compounds in neutralization reactions

1996

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V. Vidojkovic

Mechanical activation of (SeO2 + Na2CO3) mixture and sodium selenite synthesis

Influence of the damage level during quenching on thermal shock behavior of low cement castable

Preparation and properties of low cement castable sintered at different temperatures

Mechanochemical Activation of (SeO2+Na2CO3) Mixture and Sodium Selenite Synthesis in Vibrational Mill

Mechanochemical syntheses of inorganic compounds in neutralization reactions

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