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2 681 771

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C2

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IPC

C04B35/486(2006-01-01)

H01M8/1253(2016-01-01)

(21) (22)

Application

2017130099, 2017-08-24

(24)

Start date

2017-08-24

(22)

Actual filing date

2017-08-24

(45)

Published

2019-03-12

(72)

Inventor

Kuzmin Anton ValerievichStroeva Anna YurevnaNovikova Yuliya VyacheslavovnaBochegov Aleksandr AnatolevichErmakov Aleksandr VladimirovichVylkov Aleksej IlichAnanev Maksim VasilevichZajkov Yurij PavlovichNikiforov Sergej VladimirovichTerentev Egor Vilenovich

(73)

Holder

Federalnoe Gosudarstvennoe Byudzhetnoe Uchrezhdenie Nauki Institut Vysokotemperaturnoj Elektrokhimii Uralskogo Otdeleniya Rossijskoj Akademii NaukFederalnoe Gosudarstvennoe Avtonomnoe Obrazovatelnoe Uchrezhdenie Vysshego Obrazovaniya Uralskij Federalnyj Universitet Imeni Pervogo Prezidenta Rossii B.N. EltsinaObshchestvo S Ogranichennoj Otvetstvennostyu

METHOD FOR PRODUCING GAS-TIGHT SOLID OXIDE TUBULAR ELECTROLYTE FOR BASE OF SOFC Russian patent published in 2019 - IPC C04B35/486 H01M8/1253 

Abstract RU 2681771 C2

FIELD: chemistry.

SUBSTANCE: invention relates to the production of a gas-tight solid oxide tubular electrolyte with ionic conductivity, which can be used in the manufacture of various electrochemical devices, such as solid oxide fuel cells (SOFC), electrolyzers, etc. Method includes plasma spraying of particles of ceramic material with a plasma jet on a removable mandrel by molding monolayers, plasma spraying is carried out with particles of an oxide ceramic material with ionic conductivity followed by vacuum impregnation of the obtained porous tubular electrolyte with a solution in which the cations are taken in the same ratio as the material being sprayed. Vacuum impregnation of the tubular electrolyte is repeated until gas density is achieved, using intermediate drying or low-temperature annealing at the decomposition temperature of the salt solution, after which the tubular electrolyte is sintered at the phase formation temperature.

EFFECT: obtaining a gas-tight solid oxide tubular element in a simpler way.

1 cl, 2 dwg

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RU 2 681 771 C2

Authors

Kuzmin Anton Valerievich

Stroeva Anna Yurevna

Novikova Yuliya Vyacheslavovna

Bochegov Aleksandr Anatolevich

Ermakov Aleksandr Vladimirovich

Vylkov Aleksej Ilich

Ananev Maksim Vasilevich

Zajkov Yurij Pavlovich

Nikiforov Sergej Vladimirovich

Terentev Egor Vilenovich

Dates

2019-03-12Published

2017-08-24Filed

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