Patenton — panteon of patents

(19)

RU

(11)

2 558 809

(13)

C2

(51)

IPC

B22F9/14(2006-01-01)

C25C5/02(2006-01-01)

C25C7/02(2006-01-01)

B82Y30/00(2011-01-01)

(21) (22)

Application

2013153713/02, 2013-12-03

(24)

Start date

2013-12-03

(22)

Actual filing date

2013-12-03

(45)

Published

2015-08-10

(72)

Inventor

Orlov Anatolij MikhajlovichJavtushenko Igor' OlegovichBodnarskij Dmitrij Sergeevich

(73)

Holder

Federal'Noe Gosudarstvennoe Bjudzhetnoe Obrazovatel'Noe Uchrezhdenie Vysshego Professional'Nogo Obrazovanija Gosudarstvennyj Universitet"

ELECTROPLASMA METHOD OF PRODUCING OF NANOPARTICLES WITH PRE-SET SIZE Russian patent published in 2015 - IPC B22F9/14 C25C5/02 C25C7/02 B82Y30/00 

Abstract RU 2558809 C2

FIELD: metallurgy.

SUBSTANCE: invention relates to powder metallurgy. The method of producing of nanodimensional particles includes electroplasma processing of surface of electrolyte in the form of salt solution containing induced ions of metals or semiconductors with formation of particles with pre-set size from them. Electroplasma processing of surface of electrolyte is performed using of the charger with voltage to 30 kV feeding the capacitor battery with the capacity (1,02…75)·10-10 F, the anode implemented as a ring and placed with a gap 2-4 mm over the electrolyte surface and the cathode located in the middle of the named ring without immersion into electrolyte. Processing is conducted with providing of radial movement of the spark discharge along the electrolyte surface, recovery of induced ions to neutral state of atoms and their agglomeration into nanodimensional particles of metals or semiconductors the change of size of which is pre-set by change of parameters of capacity of the capacitor bank and concentration of salt solution of electrolyte.

EFFECT: producing of metal nanoparticles with the tolerance 10%.

4 dwg

Similar patents RU2558809C2

Title Year Author Number
METHOD FOR OBTAINING NANOSTRUCTURAL MATERIAL OF TIN OXIDE ON BASIS OF CARBON 2017
  • Guterman Vladimir Efimovich
  • Novomlinskij Ivan Nikolaevich
  • Skibina Liliya Mikhajlovna
  • Mauer Dmitrij Konstantinovich
 RU2656914C1
METHOD OF PRODUCING NANOSIZED METAL PARTICLES 2022
  • Ostaeva Galina Iurevna
  • Eliseeva Ekaterina Aleksandrovna
  • Isaeva Irina Iurevna
  • Odinokova Irina Viacheslavovna
  • Morenko Ivan Vladimirovich
 RU2816468C1
METHOD FOR OBTAINING BINARY METAL PARTICLES BY ELECTROCHEMICAL METHOD 2021
  • Isaeva Irina Iurevna
  • Eliseeva Ekaterina Aleksandrovna
  • Odinokova Irina Viacheslavovna
  • Busko Vladimir Iosifovich
  • Ostaeva Galina Iurevna
 RU2778543C1
ADDITIVE FOR LITHIUM-ION RECHARGEABLE BATTERY 2011
  • Kuvar Fazlil
  • Abdel'Salam Mamdukh Ehl'Said
  • Lehjn Majkl Dzhonatan
 RU2533650C2
METHOD FOR PLASMA ELECTROCHEMICAL PROCESSING OF GRAPHITE FROM USED LITHIUM-ION BATTERIES 2023
  • Beletskij Evgenij Vsevolodovich
  • Levin Oleg Vladislavovich
 RU2825576C1
ELECTRODE-ELECTROLYTE PAIR ON BASE OF CERIUM DIOXIDE (VARIANTS), METHOD FOR MAKING IT (VARIANTS) AND ORGANOGEL 2003
  • Mjatiev A.A.
 RU2236722C1
METHOD OF PRODUCING NANOSTRUCTURED COBALT OXIDE ON CARBON SUPPORT 2019
  • Mauer Dmitrii Konstantinovich
  • Novomlinskii Ivan Nikolaevich
  • Skibina Liliia Mikhailovna
 RU2723558C1
ZIRCONIUM-BASED ELECTRODE-ELECTROLYTE COUPLE (ALTERNATIVES), ITS MANUFACTURING PROCESS (ALTERNATIVES), AND ORGANOGEL 2003
  • Mjatiev A.A.
 RU2236068C1
METHOD FOR APPLICATION OF ZINC COATINGS 2009
  • Il'In Vjacheslav Aleksandrovich
  • Semenychev Valentin Vladimirovich
  • Naletov Boris Pavlovich
  • Salakhova Rozalija Kabirovna
  • Tjurikov Evgenij Vladimirovich
 RU2389828C1
METHOD TO MANUFACTURE STRUCTURED PARTICLES CONTAINING SILICON OR SILICON-BASED MATERIAL AND THEIR APPLICATION IN RECHARGEABLE LITHIUM BATTERIES 2008
  • Grin Mino
  • Lju Fehn-Min
 RU2451368C2

RU 2 558 809 C2

Authors

Orlov Anatolij Mikhajlovich

Javtushenko Igor' Olegovich

Bodnarskij Dmitrij Sergeevich

Dates

2015-08-10Published

2013-12-03Filed

download Download PDF read Similar patents