Miroslav Jankula scite author profile

Miroslav Jankula

2Publications

12Citation Statements Received

11Citation Statements Given

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Affiliations

Constantine the Philosopher University in Nitra

Publications

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Typical problems in push-rod dilatometry analysis

Jankula¹,

Šín²,

Podoba³

et al. 2013

Epitoanyag-JSBCM

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The paper deals with thermodilatometry of green and fired ceramic samples. Problems connected with the measurements in dilatometric practice are described in detail, namely a) the influence of the pressing force of the push-rod, b) the effect of an improperly placed sample and improper measuring range, c) the influence of the volume of a sample, d) the influence of the heating rate, and e) the influence of the grounding and AD transducer on the results of the thermodilatometric analysis.

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The influence of heat on elastic properties of illitic clay Radobica

Jankula

Húlan

Ncaron

et al. 2015

J. Ceram. Soc. Japan

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Brick clay from a locality Radobica, Central Slovakia, which was exploited for brick manufacturing in the past, was investigated for its possible reuse in the brick industry. The crystalline phases of the green sample were 48% of quartz, 37% of illite, 13%, of Na-feldspar and 2% of calcite. The measurements of Young's modulus of clay samples were performed during heating up to 1100°C and also at room temperature on samples preheated at temperatures from 100 to 1100°C. It was found during firing that 1) the physically bound water is released in 3 steps (up to 300°C) and reaches ³2.5 wt %. The thermal expansion is decelerated by setting the crystal closer at low temperatures. Young's modulus increases in its values (³36%) which is a result of the closer structure that is created via release of the physically bound water. 2) The mass loss during dehydroxylation (450750°C) is ³3 wt %. The superposition of dehydroxylation and ¡ ¼ ¢ transformation of quartz creates a step ³3% of the relative thermal expansion. Young's modulus slightly decreases in its values, the dehydroxylation does not influence this trend. 3) Above 900°C, the intensive contraction due to sintering is observed and a steep increase (250%) of Young's modulus takes place in this temperature interval. The irreversible changes of the Young's modulus measured at room temperature after firings at the temperatures from the interval 1001100°C give a different picture. Dehydroxylation affects Young's modulus very significantly decreasing its values from 7.8 GPa (at 400°C) to 4.3 GPa (at 700°C). After dehydroxylation, the sintering increases Young's modulus. Since the porosity remains relatively high (³30%) and a part of the glassy phase in the sample fired at 1100°C is relatively low (25%), the Young's modulus is low even after firing at 1100°C (9.3 GPa).

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