Peculiar Features of Formation of the Phase Composition of Black Clinker Ceramics

Authors

  • Olena Khomenko
    Affiliation
    Department of Chemical Technology Ceramics, Glass and Building Materials, Faculty of Chemical Technologies and Ecology, Ukrainian State Chemical Technology University, 8 Gagarin av., 49005 Dnipro, Ukraine
  • Nataliia Sribniak
    Affiliation
    Department of Building Structures, Faculty of Civil Engineering, Sumy National Agrarian University, 160 Gerasim Kondratieff str., 40021 Sumy, Ukraine
  • Viktoriia Ivchenko
    Affiliation
    Department of Building Structures, Faculty of Civil Engineering, Sumy National Agrarian University, 160 Gerasim Kondratieff str., 40021 Sumy, Ukraine
  • Svitlana Hretsai
    Affiliation

    "Kerameya" Limited Liability Company, 47 Pogranichnaya str., 40012 Sumy, Ukraine

  • Ivan Teliushchenko
    Affiliation

    "Kerameya" Limited Liability Company, 47 Pogranichnaya str., 40012 Sumy, Ukraine

  • Serhii Halushka
    Affiliation
    Department of Building Structures, Faculty of Civil Engineering, Sumy National Agrarian University, 160 Gerasim Kondratieff str., 40021 Sumy, Ukraine
https://doi.org/10.3311/PPch.21037

Abstract

This paper examines the peculiarities of the phase composition of black clinker bricks based on the ceramic masses of Kerameya enterprise (Sumy, Ukraine). The principles of charge choice are given considering the ratio of coloring oxides Fe2O3, CoO, MnO2, Mn3O4 and CuO. We found that the phase composition of black clinker bricks after firing at 1100 °С is mainly represented by quartz, microcline, mullite, residues of biotite, as well as hematite and hausmannite as the coloring phases, and also small amounts of cuprite. To produce black ceramic bricks on the basis of clay composition, we need to take 13.5 wt% elements with the ratio of Mn: Fe: Ti: Cu equal to 4.2: 7.7: 0.5: 1.1. Such ceramic mass is already used to produce ceramic clinker bricks with water absorption of 5%, mechanical compressive strength of more than 35 MPa and frost resistance of more than 150 freezing and thawing cycles.

Keywords:

ceramic clinker brick, sintering, hausmannite, hematite, ceramic charge, plastic forming, water absorption, X-ray phase analysis of ceramics

Citation data from Crossref and Scopus

Published Online

2023-05-23

How to Cite

Khomenko, O., Sribniak, N., Ivchenko, V., Hretsai, S., Teliushchenko, I., Halushka, S. “Peculiar Features of Formation of the Phase Composition of Black Clinker Ceramics”, Periodica Polytechnica Chemical Engineering, 67(2), pp. 225–231, 2023. https://doi.org/10.3311/PPch.21037

Issue

Section

Articles