Refractory ceramics based on magnesium–aluminate spinel and periclase of the Satka deposit; Materials Chemistry and Physics; Vol. 313
| Parent link: | Materials Chemistry and Physics.— .— Amsterdam: Elsevier Science Publishing Company Inc. Vol. 313.— 2024.— Article number 128760, 11 p. |
|---|---|
| Collectivité auteur: | |
| Autres auteurs: | , , , , |
| Résumé: | Title screen The article is aimed at evaluating the promising approach to the management of the performance characteristics of ceramic refractories based on magnesia-aluminate spinel and periclase made from natural components extracted from the Satka deposit. The essence of the approach is the mechanical activation of initial coarse powders to decrease the mean particle size and dispersion, as well as to clean particle surfaces, and the variation of sintering parameters to improve the quality of adhesion between particles during sintering. It is shown that these changes in production technology allow for achieving a significant superiority of refractories obtained from activated powders over industrial samples made of powders not subjected to this kind of treatment. The obtained materials particularly have multiple higher strengths and fracture toughness. The thermal conductivity and thermal shock resistance of the obtained materials are not inferior to or superior to the corresponding characteristics of industrial refractories of similar phase composition. The analysis showed that the mechanical and thermophysical characteristics of ceramics synthesized from mechanically activated natural powders are not inferior to those of ceramics synthesized in laboratory conditions from pure precursors. The results of the study indicate a possibility of significant improvement of the mechanical and thermal characteristics of industrial periclase-spinel refractories by additional mechanical activation of mixtures of coarse powders obtained from mined natural components AM_Agreement |
| Langue: | anglais |
| Publié: |
2024
|
| Sujets: | |
| Accès en ligne: | https://doi.org/10.1016/j.matchemphys.2023.128760 |
| Format: | Électronique Chapitre de livre |
| KOHA link: | https://koha.lib.tpu.ru/cgi-bin/koha/opac-detail.pl?biblionumber=672237 |
Documents similaires
Transparent Magnesium Aluminate Spinel Ceramics Reinforced by Alumina Nanofibers; Russian Physics Journal; Vol. 67, iss. 9
Publié: (2024)
Publié: (2024)
Transparent Ceramics Fabricated via Spark Plasma Sintering–Magnesium Aluminate Spinel with Increased Aspect Ratio; Reviews and Advances in Chemistry; Vol. 14, iss. 3
Publié: (2024)
Publié: (2024)
Cr3+-doped MgAl2O4 spinel ceramics fabricated by arc plasma melting method; Ceramics International; Vol. 51, iss. 16, Pt. 1
Publié: (2025)
Publié: (2025)
Technological aspects of Mn-doped MgAl2O4 luminescent spinel ceramics fabricated by arc plasma synthesis method; Ceramics International; Vol. 51, iss. 24, pt. B
Publié: (2025)
Publié: (2025)
Применение комплексного критерия для оценки качества армированной прозрачной керамики MgAl2O4; Перспективы развития фундаментальных наук; Т. 2 : Химия
par: Шевченко И. Н. Иван Николаевич
Publié: (2025)
par: Шевченко И. Н. Иван Николаевич
Publié: (2025)
Fabrication and properties of novel multilayered Y3Al5O12/MgAl2O4 ceramics doped with rare-earth ions; Ceramics International; Vol. 50, iss. 11
Publié: (2024)
Publié: (2024)
Optical and luminescent properties of MgAl2O4 ceramics doped with high level of Eu3+ ions concentrations; Optics and Spectroscopy; Vol. 141 - iss. 5
Publié: (2023)
Publié: (2023)
Sintering and characterization of novel multilayered MgAl2O4/YAG, MgAl2O4/YSZ and YAG/YSZ ceramic-ceramic architectures for
photonic applications; Ceramics International; Vol. 49 - iss. 21
Publié: (2023)
Publié: (2023)
Structural and Luminescent Peculiarities of Spark PlasmaSintered Transparent MgAl2O4 Spinel Ceramics Doped withCerium Ions; Inorganics; Vol. 10, iss. 10
Publié: (2022)
Publié: (2022)
Влияние малых концентраций CeO2 на свойства прозрачной керамики на основе MgAl2O4; Актуальные проблемы порошкового материаловедения
Publié: (2018)
Publié: (2018)
Синтез и свойства порошков алюмомагниевой шнипели полученных разными методами; Современные проблемы машиностроения
par: Лю Синьюй
Publié: (2024)
par: Лю Синьюй
Publié: (2024)
Синтез и анализ нанокомпозитов MgO-ZnO, полученных разными методами; Научная инициатива иностранных студентов и аспирантов
par: Ян Сун
Publié: (2025)
par: Ян Сун
Publié: (2025)
The role of MgF2 in the development of spark plasma sintered transparent MgAl2O4 ceramics; Ceramics International; Vol. 52, iss. 6
Publié: (2026)
Publié: (2026)
Электроимпульсное плазменное спекание прозрачной керамики из алюмомагниевой шпинели с повышенным фактором формы; Вестник Томского государственного университета. Химия; № 33
Publié: (2024)
Publié: (2024)
LiF influence on spark plasma sintering and structure of transparent MgAl2O4 ceramics; Russian Physics Journal; Vol. 68, iss. 4
Publié: (2025)
Publié: (2025)
Effect of Tb4O7 content on the optical and mechanical properties of transparent ceramics based on MgAl2O4; Materials Today: Proceedings; Vol. 19, Pt. 5 : International Conference on Modern Trends in Manufacturing Technologies and Equipment 2019
Publié: (2019)
Publié: (2019)
Nanostructured silica-supported gold: Effect of nanoparticle size distribution and electronic state on its catalytic properties in oxidation reactions; Catalysis Today; Vol. 366
Publié: (2021)
Publié: (2021)
Synthesis and optical properties of Tb3+ or Dy3+-doped MgAl2O4 transparent ceramics; Optical Materials; Vol. 91
Publié: (2019)
Publié: (2019)
Sol–gel synthesis and characterization of two-component systems based on MgO; Journal of Sol-Gel Science and Technology; Vol. 82, iss. 2
Publié: (2017)
Publié: (2017)
Synthesis of binary Co–Mg–O oxide system and study of its behavior in reduction/oxidation cycling; International Journal of Hydrogen Energy; Vol. 44, iss. 37
Publié: (2019)
Publié: (2019)
Green synthesis of MgO nanocatalyst by using Ziziphus mauritiana leaves and seeds for biodiesel production; Applied Organometallic Chemistry; Vol. 35, iss. 5
Publié: (2021)
Publié: (2021)
Импульсная катодолюминесценция примесных центров в керамике на основе шпинели MgAl2O4; Журнал прикладной спектроскопии; Т. 85, № 3
Publié: (2018)
Publié: (2018)
Overview of achievements in the refractory industry; Journal of Economics and Social Sciences; № 16
par: Tolegenov D. T. Dias
Publié: (2020)
par: Tolegenov D. T. Dias
Publié: (2020)
Properties of ZnO:Al, ZnO:Al–SiO2 Films Obtained in Sol Gel Process from Coating Solutions; Russian Physics Journal; Vol. 63, iss. 4
par: Kuznetsova S. A. Svetlana Anatoljevna
Publié: (2020)
par: Kuznetsova S. A. Svetlana Anatoljevna
Publié: (2020)
Cathodoluminescence properties of oxide and fluoride ceramics synthesized in the field of high-energy electrons flux; Вестник Карагандинского университета. Серия Физика; № 4 (116)
par: Karnaukhova A. A. Anna Alekseevna
Publié: (2024)
par: Karnaukhova A. A. Anna Alekseevna
Publié: (2024)
A Review of Magnesium Alloys In Vivo Antibacterial Properties: Challenges, Solutions, and Perspectives in Implant-Associated Orthopedic Infections; Journal of Biomedical Materials Research - Part B Applied Biomaterials; Vol. 113, iss. 7
Publié: (2025)
Publié: (2025)
Структура и свойства алюминиево-магниевых сплавов монография
par: Аникина В. И.
Publié: (Красноярск, СФУ, 2012)
par: Аникина В. И.
Publié: (Красноярск, СФУ, 2012)
Creating a composite material ZnO-Bi2O3 with a core-shell structure for varistor ceramics; Journal of Physics: Conference Series; Vol. 1347 : New materials and technologies
par: Litvinets F. N.
Publié: (2019)
par: Litvinets F. N.
Publié: (2019)
An overview of progress in Mg-based hydrogen storage films; Chinese Physics B; Vol. 28, iss. 9
par: Lyu Jinzhe
Publié: (2019)
par: Lyu Jinzhe
Publié: (2019)
Технология и оборудование получения композитных порошков сферической формы для селективного лазерного плавления; Инновации в машиностроении (ИнМаш - 2022)
Publié: (2022)
Publié: (2022)
Porous Biocoatings Based on Diatomite with Incorporated ZrO2 Particles for Biodegradable Magnesium Implants; Journal of Functional Biomaterials; Vol. 14, iss. 5
Publié: (2023)
Publié: (2023)
Luminescence of the tungsten-activated MgF2 ceramics synthesized under the electron beam; Nuclear Instruments and Methods in Physics Research B; Vol. 435
Publié: (2018)
Publié: (2018)
Plasma dynamic synthesis of composite ZnO-Bi2O3 material with a core-shell structure for varistor ceramics; Ceramics International; Vol. 44, iss. 18
Publié: (2018)
Publié: (2018)
Regulating grain growth and sintering mechanism of Si3N4 ceramics: Three effects achieved simultaneously by controlling the amount of CaF2 additive; Journal of the European Ceramic Society; Vol. 46, iss. 9
Publié: (2026)
Publié: (2026)
Механические свойства алюминиевых сплавов монография
par: Грищенко Н. А.
Publié: (Красноярск, СФУ, 2012)
par: Грищенко Н. А.
Publié: (Красноярск, СФУ, 2012)
Phase formation, structure and properties of ceramic materials based on binary mixtures «refractory clay — steel slag»; Инженерно-строительный журнал; Vol. 18, № 6
Publié: (2025)
Publié: (2025)
Studying the Structural Phase Composition and Optical and Mechanical Properties of Al–Si–Re–O Coatings Deposited on Quartz Glass; Russian Physics Journal; Vol. 67, iss. 4
Publié: (2024)
Publié: (2024)
Mullite-Corundum Materials Based on Mullite Binder Resistant to High-Temperature Deformation; Refractories and Industrial Ceramics; Vol. 58, iss. 6
Publié: (2018)
Publié: (2018)
Формирование поддержек Al2O3 экструзионной аддитивной технологией; Перспективы развития фундаментальных наук; Т. 1 : Физика
par: Забанов Ж. Г. Жалсан Георгиевич
Publié: (2025)
par: Забанов Ж. Г. Жалсан Георгиевич
Publié: (2025)
Influence of Severe Plastic Deformation by Extrusion on Microstructure, Deformation and Thermal Behavior under Tension of Magnesium Alloy Mg-2.9Y-1.3Nd; Metals; Vol. 13, iss. 5
Publié: (2023)
Publié: (2023)