Learn more

FEDERAL NOE G BJUDZHETNOE UCHREZHDENIE NAUKI INST METALLURG I MATERIALOVEDENIJA IM A A BAJKOVA ROSSI

Overview
  • Total Patents
    30
  • GoodIP Patent Rank
    177,438
About

FEDERAL NOE G BJUDZHETNOE UCHREZHDENIE NAUKI INST METALLURG I MATERIALOVEDENIJA IM A A BAJKOVA ROSSI has a total of 30 patent applications. Its first patent ever was published in 2012. It filed its patents most often in Russian Federation. Its main competitors in its focus markets environmental technology are BAOTONG IRON & STEEL CO LTD, INST ZA KOVINSKE MATERIALE IN and METARETSUKUSU KENKYUSHO KK.

Patent filings in countries

World map showing FEDERAL NOE G BJUDZHETNOE UCHREZHDENIE NAUKI INST METALLURG I MATERIALOVEDENIJA IM A A BAJKOVA ROSSIs patent filings in countries
# Country Total Patents
#1 Russian Federation 30

Patent filings per year

Chart showing FEDERAL NOE G BJUDZHETNOE UCHREZHDENIE NAUKI INST METALLURG I MATERIALOVEDENIJA IM A A BAJKOVA ROSSIs patent filings per year from 1900 to 2020

Focus industries

Focus technologies

Top inventors

# Name Total Patents
#1 Barinov Sergej Mironovich 13
#2 Smirnov Valerij Vjacheslavovich 8
#3 Gol Dberg Margarita Aleksandrovna 7
#4 Komlev Vladimir Sergeevich 6
#5 Fadeeva Inna Vilorovna 5
#6 Jusupov Vladimir Sabitovich 4
#7 Miljaev Igor Matveevich 4
#8 Miljaev Aleksandr Igorevich 3
#9 Tjut Kova Julija Borisovna 3
#10 Drobakha Elena Alekseevna 2

Latest patents

Publication Filing date Title
RU2572101C1 Ceramic material with low sintering temperature based on zirconium dioxide of tetragonal modification
RU2570694C1 Ceramic material with low temperature of cracking, based on cubic zircon dioxide
RU2569113C1 Composite ceramic material and method for production thereof
RU2555348C1 Method of production of porous ceramic granules on basis of calcium carbonate and hydroxyapatite and/or carbonate hydroxyapatite for filling of bone defects at reconstructive plastic surgeries
RU2554811C1 Method of obtaining porous chitosan calcium phosphate-containing sponges for filling bone defects
RU2554804C1 Method for preparing calcium phosphate composite
RU2558122C1 Method of obtaining mixed coagulant from mineral raw material
RU2557852C1 Method of heat treatment of magnetically hard alloys of iron-chrome-cobalt system with cobalt content 8 wt %
RU2542439C1 Method for producing porous ceramic matrix of calcium carbonate for filling bone defects in reparative surgeries
RU2549638C1 Liquid composition for producing porous ceramic samples based on calcium phosphates for bone engineering with 3d moulding and/or 3d printing
RU2551034C1 Method of cobaltous oxide co3o4 production for hard alloys manufacturing
RU2525951C1 Method of loparite concentrate processing
RU2534477C1 Nanopowders obtaining method
RU2533068C1 Production of iron-chromium-cobalt-system-based magnetically hard alloy powders
RU2516187C1 High-nitrogen martensite nickel steel
RU2513327C1 Method of loparite concentrate processing
RU2523453C1 Method of obtaining charge for composite material based on calcium carbonate and hydroxyapatite and/or carbonate hydroxyapatite for recovery of bone tissue in reconstructive-plastic operations
RU2502561C1 Method of preparing catalyst for purification of exhaust gases of combustion engines and catalyst obtained thereof
RU2502526C1 Implant coating of titanium and its alloys, and method for preparing it
RU2506228C1 Method of obtaining mesoporous nanosized cerium dioxide powder (versions)