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FEDERALNOE GOSUDARSTVENNOE BYUDZHETNOE NAUCHNOE UCHREZHDENIE TEKH INSTITUT SVERKHTVERDYKH I NOVYKH U

Overview
  • Total Patents
    13
  • GoodIP Patent Rank
    126,876
  • Filing trend
    ⇧ 100.0%
About

FEDERALNOE GOSUDARSTVENNOE BYUDZHETNOE NAUCHNOE UCHREZHDENIE TEKH INSTITUT SVERKHTVERDYKH I NOVYKH U has a total of 13 patent applications. It increased the IP activity by 100.0%. Its first patent ever was published in 2016. It filed its patents most often in Russian Federation. Its main competitors in its focus markets materials and metallurgy, micro-structure and nano-technology and measurement are HYPERION CATALYSIS INTERNATIONAL INC, INST STRUKTUR MAKROKINET AN and APPLIED NANOSTRUCTURED SOLS.

Patent filings in countries

World map showing FEDERALNOE GOSUDARSTVENNOE BYUDZHETNOE NAUCHNOE UCHREZHDENIE TEKH INSTITUT SVERKHTVERDYKH I NOVYKH Us patent filings in countries
# Country Total Patents
#1 Russian Federation 13

Patent filings per year

Chart showing FEDERALNOE GOSUDARSTVENNOE BYUDZHETNOE NAUCHNOE UCHREZHDENIE TEKH INSTITUT SVERKHTVERDYKH I NOVYKH Us patent filings per year from 1900 to 2020

Top inventors

# Name Total Patents
#1 Blank Vladimir Davydovich 4
#2 Popov Mikhail Yurevich 3
#3 Bagramov Rustem Khamitovich 3
#4 Mordkovich Vladimir Zalmanovich 2
#5 Bormashov Vitalij Sergeevich 2
#6 Luparev Nikolaj Viktorovich 2
#7 Terentev Sergej Aleksandrovich 2
#8 Evdokimov Ivan Andreevich 2
#9 Tarelkin Sergej Aleksandrovich 2
#10 Illich-Svitych Ivan Pavlovich 2

Latest patents

Publication Filing date Title
RU2716930C1 Method of producing aluminum-based nanostructure composite material
RU2716965C1 Method of producing aluminum-based nanostructure composite material
RU2723956C1 Microwave mass sensor
RU2709885C1 Method of producing boron-carbon composite material
RU2714650C1 Method of hardening composite materials based on carbon fiber
RU2680853C1 Indenter lens
RU2679928C1 Device for identification of diamond
RU2668229C1 Method of manufacturing semiconductor converter of ionizing radiation energy to electricity
RU2640788C1 Method for obtaining doped diamond monocrystal
RU2645536C1 Light-absorption material
RU2653127C2 Composite material based on carbon and the method of its production
RU2655717C2 Method for obtaining ceramic material based on boron carbide
RU2653182C2 Ceramic nanostructured material based on silicon nitride and method of its production