MICROHARDNESS OF CERAMIC MATERIALS BASED ON Ge-DOPED ARGYRODITE Ag6PS5I

MICROHARDNESS OF CERAMIC MATERIALS BASED ON Ge-DOPED ARGYRODITE Ag6PS5I

This paper presents the preparation of mic­rocrystalline powders of Ag6PS5I, solid solutions of Ag6+xP1-xGexS5I (x = 0.25, 0.5, 0.75) and ceramic materials based on them. The microhardness of the ceramic samples was measured and the effect of heterovalent substitution of P5+↔Ge4+ on the mechanical p...

Повний опис

Збережено в:
Бібліографічні деталі
Дата:2023
Автори: Filep, Michael, Pogodin, Artem, Shender, Iryna, Malakhovska, Tetyana, Bilanych, Vitaliy, Kokhan, Oleksandr
Формат: Стаття
Мова:English
Опубліковано: V.I.Vernadsky Institute of General and Inorganic Chemistry 2023
Онлайн доступ:https://ucj.org.ua/index.php/journal/article/view/547
Теги: Додати тег
Немає тегів, Будьте першим, хто поставить тег для цього запису!
Назва журналу:Ukrainian Chemistry Journal

Репозитарії

Ukrainian Chemistry Journal
id oai:ojs2.1444248.nisspano.web.hosting-test.net:article-547
record_format ojs
spelling oai:ojs2.1444248.nisspano.web.hosting-test.net:article-5472023-07-11T08:17:00Z MICROHARDNESS OF CERAMIC MATERIALS BASED ON Ge-DOPED ARGYRODITE Ag6PS5I Filep, Michael Pogodin, Artem Shender, Iryna Malakhovska, Tetyana Bilanych, Vitaliy Kokhan, Oleksandr argyrodites, ceramics, microhardness. This paper presents the preparation of mic­rocrystalline powders of Ag6PS5I, solid solutions of Ag6+xP1-xGexS5I (x = 0.25, 0.5, 0.75) and ceramic materials based on them. The microhardness of the ceramic samples was measured and the effect of heterovalent substitution of P5+↔Ge4+ on the mechanical properties of the studied samples was determined. The synthesis of initial Ag6PS5I and necessary for doping Ag7GeS5I was performed from the high purity elemental components (Ag, P, Ge, S) and previously synthesized binary AgI. Solid solutions of the Ag6+xP1-xGexS5I (x = 0.25, 0.5, 0.75) composition were synthesized from previously synthesised Ag6PS5I and Ag7GeS5I taken in stoichiometric amounts by a direct one-temperature method. As a result, polycrystalline bulk alloys of Ag6+xP1-xGexS5I solid were obtained. Microcrystalline Ag6+xP1-xGexS5I powders were obtained from the synthesized polycrystalline alloys by mechanical grinding (agate mortar). The powders were sieved through sieves with a pore size of 20 μm and 10 μm to obtain a fraction of crystallites with a size of 10-20 μm. The phase composition of the obtained powders was studied by means of XRD method. It has been found that the powder patterns of the studied samples are cha­racterized by the presence only of one system of reflexes corresponding to the face-centred cubic cell with SG F-43m. The resulting micropowders were pressed (P ~ 400 MPa) in the form of discs and annealed at 650 °С in vacuum quartz ampoules. The microhardness of the ceramics obtained in this way was measured by the Vickers method. For all ceramics, a decrease in the microhardness H is observed with an increase in the load P. This indicates that a direct size effect is observed for ceramics made on the basis of solid solutions of Ag6+xP1-xGexS5I. The obtained values of microhardness at a load of P > 1–1.5 N are independent of the load, which indicates the achievement of intrinsic hardness. Meyer's law was used to further analyze the microhardness and size effect of Ag6+xP1-xGexS5I solid solutions. The obtained values of the Meyer's index for Ag6+xP1-xGexS5I based ceramics are in the range n = 1.78 ÷ 1.81, which demonstrates the implementation of a direct size effect in these samples and indicates that the studied ceramics belong to soft materials. The concentration dependence of the microhardness indicates that an increase in the Germanium content in ceramic materials of solid solutions of Ag6+xP1-xGexS5I leads to a decrease in the microhardness of the materials.   V.I.Vernadsky Institute of General and Inorganic Chemistry 2023-05-25 Article Article Physical chemistry Физическая xимия Фізична xімія application/pdf https://ucj.org.ua/index.php/journal/article/view/547 10.33609/2708-129X.89.04.2023.102-114 Ukrainian Chemistry Journal; Vol 89 No 4 (2023): Ukrainian Chemistry Journal; 102-114 Украинский химический журнал; Том 89 № 4 (2023): Ukrainian Chemistry Journal; 102-114 Український хімічний журнал; Том 89 № 4 (2023): Ukrainian Chemistry Journal; 102-114 2708-129X 2708-1281 en https://ucj.org.ua/index.php/journal/article/view/547/278
institution Ukrainian Chemistry Journal
baseUrl_str
datestamp_date 2023-07-11T08:17:00Z
collection OJS
language English
topic_facet argyrodites
ceramics
microhardness.
format Article
author Filep, Michael
Pogodin, Artem
Shender, Iryna
Malakhovska, Tetyana
Bilanych, Vitaliy
Kokhan, Oleksandr
spellingShingle Filep, Michael
Pogodin, Artem
Shender, Iryna
Malakhovska, Tetyana
Bilanych, Vitaliy
Kokhan, Oleksandr
MICROHARDNESS OF CERAMIC MATERIALS BASED ON Ge-DOPED ARGYRODITE Ag6PS5I
author_facet Filep, Michael
Pogodin, Artem
Shender, Iryna
Malakhovska, Tetyana
Bilanych, Vitaliy
Kokhan, Oleksandr
author_sort Filep, Michael
title MICROHARDNESS OF CERAMIC MATERIALS BASED ON Ge-DOPED ARGYRODITE Ag6PS5I
title_short MICROHARDNESS OF CERAMIC MATERIALS BASED ON Ge-DOPED ARGYRODITE Ag6PS5I
title_full MICROHARDNESS OF CERAMIC MATERIALS BASED ON Ge-DOPED ARGYRODITE Ag6PS5I
title_fullStr MICROHARDNESS OF CERAMIC MATERIALS BASED ON Ge-DOPED ARGYRODITE Ag6PS5I
title_full_unstemmed MICROHARDNESS OF CERAMIC MATERIALS BASED ON Ge-DOPED ARGYRODITE Ag6PS5I
title_sort microhardness of ceramic materials based on ge-doped argyrodite ag6ps5i
description This paper presents the preparation of mic­rocrystalline powders of Ag6PS5I, solid solutions of Ag6+xP1-xGexS5I (x = 0.25, 0.5, 0.75) and ceramic materials based on them. The microhardness of the ceramic samples was measured and the effect of heterovalent substitution of P5+↔Ge4+ on the mechanical properties of the studied samples was determined. The synthesis of initial Ag6PS5I and necessary for doping Ag7GeS5I was performed from the high purity elemental components (Ag, P, Ge, S) and previously synthesized binary AgI. Solid solutions of the Ag6+xP1-xGexS5I (x = 0.25, 0.5, 0.75) composition were synthesized from previously synthesised Ag6PS5I and Ag7GeS5I taken in stoichiometric amounts by a direct one-temperature method. As a result, polycrystalline bulk alloys of Ag6+xP1-xGexS5I solid were obtained. Microcrystalline Ag6+xP1-xGexS5I powders were obtained from the synthesized polycrystalline alloys by mechanical grinding (agate mortar). The powders were sieved through sieves with a pore size of 20 μm and 10 μm to obtain a fraction of crystallites with a size of 10-20 μm. The phase composition of the obtained powders was studied by means of XRD method. It has been found that the powder patterns of the studied samples are cha­racterized by the presence only of one system of reflexes corresponding to the face-centred cubic cell with SG F-43m. The resulting micropowders were pressed (P ~ 400 MPa) in the form of discs and annealed at 650 °С in vacuum quartz ampoules. The microhardness of the ceramics obtained in this way was measured by the Vickers method. For all ceramics, a decrease in the microhardness H is observed with an increase in the load P. This indicates that a direct size effect is observed for ceramics made on the basis of solid solutions of Ag6+xP1-xGexS5I. The obtained values of microhardness at a load of P > 1–1.5 N are independent of the load, which indicates the achievement of intrinsic hardness. Meyer's law was used to further analyze the microhardness and size effect of Ag6+xP1-xGexS5I solid solutions. The obtained values of the Meyer's index for Ag6+xP1-xGexS5I based ceramics are in the range n = 1.78 ÷ 1.81, which demonstrates the implementation of a direct size effect in these samples and indicates that the studied ceramics belong to soft materials. The concentration dependence of the microhardness indicates that an increase in the Germanium content in ceramic materials of solid solutions of Ag6+xP1-xGexS5I leads to a decrease in the microhardness of the materials.  
publisher V.I.Vernadsky Institute of General and Inorganic Chemistry
publishDate 2023
url https://ucj.org.ua/index.php/journal/article/view/547
work_keys_str_mv AT filepmichael microhardnessofceramicmaterialsbasedongedopedargyroditeag6ps5i
AT pogodinartem microhardnessofceramicmaterialsbasedongedopedargyroditeag6ps5i
AT shenderiryna microhardnessofceramicmaterialsbasedongedopedargyroditeag6ps5i
AT malakhovskatetyana microhardnessofceramicmaterialsbasedongedopedargyroditeag6ps5i
AT bilanychvitaliy microhardnessofceramicmaterialsbasedongedopedargyroditeag6ps5i
AT kokhanoleksandr microhardnessofceramicmaterialsbasedongedopedargyroditeag6ps5i
first_indexed 2025-09-24T17:43:50Z
last_indexed 2025-09-24T17:43:50Z
_version_ 1844168182504357888

Схожі ресурси