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Influence investigation of technological parameters on the properties of celsianslavsonite ceramics
Author(s) -
Yaroslav Pitak,
Г. В. Лисачук,
R. V. Krivobok,
А. В. Захаров,
Valentyna Voloshchuk,
E. V. Chefranov,
М. S. Maystat
Publication year - 2019
Publication title -
scientific research on refractories and technical ceramics
Language(s) - English
Resource type - Journals
ISSN - 2663-3566
DOI - 10.35857/2663-3566.119.08
Subject(s) - materials science , briquette , ceramic , porosity , microstructure , dielectric , absorption of water , grain size , phase (matter) , mineralogy , composite material , metallurgy , waste management , optoelectronics , organic chemistry , chemistry , coal , engineering
The article discusses the manufacturing technological parameters of a radiotransparent ceramic celsianslavsonite material Ba0.5Sr0.5Al2Si2O8 in a ratio of their crystalline phases of 50:50. The technology for creating the prototype took place in two stages. The first stage — synthesis of combined celsianslavsonote briquette was carried out in a silica furnace with an accelerated mode: the temperature set speed was 15 deg/min, the maximum firing temperature was 1300  C with holding for 1 hour. Then the synthesized briquette was ground in a planetary mill for 10 minutes (< 0.063 mm). The second stage took place at temperatures of 1300, 1350 and 1400  C with holding at a maximum temperature of 1, 2 and 3 hours. Studies of samples on dielectric properties, water absorption and open porosity were carried out. The phase composition of obtained materials and their microstructure were investigated. The relationship between a dielectric constant and a grain size of the crystalline phase (Ba0.5Sr0.5Al2Si2O8) was established. The best indicators had the samples burned at a temperature of 1300—1350  C in an oxidized environment, with holding at a maximum temperature of 1—2 hours (ε = 4.264.52, W = 1.842.31  %, Pоpen = 4.355.43  %).

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