Learn more

FEDERAL NOE GUP VRNII AVIAT MA

Overview
  • Total Patents
    179
About

FEDERAL NOE GUP VRNII AVIAT MA has a total of 179 patent applications. Its first patent ever was published in 2004. It filed its patents most often in Russian Federation. Its main competitors in its focus markets materials and metallurgy, environmental technology and electrical machinery and energy are FIRTH VICKERS STAINLESS STEELS LTD, NKK BARS & SHAPES CO LTD and TIANJIN LIZHONG ALLOY CO LTD.

Patent filings in countries

World map showing FEDERAL NOE GUP VRNII AVIAT MAs patent filings in countries
# Country Total Patents
#1 Russian Federation 179

Patent filings per year

Chart showing FEDERAL NOE GUP VRNII AVIAT MAs patent filings per year from 1900 to 2020

Top inventors

# Name Total Patents
#1 Kablov Evgenij Nikolaevich 106
#2 Nochovnaja Nadezhda Alekseevna 18
#3 Khorev Anatolij Ivanovich 17
#4 Mubojadzhjan Sergej Artemovich 13
#5 Solntsev Stanislav Sergeevich 13
#6 Abuzin Jurij Alekseevich 11
#7 Lomberg Boris Samuilovich 10
#8 Sidorov Viktor Vasil Evich 9
#9 Demonis Iosif Markovich 9
#10 Lukina Natalija Filippovna 8

Latest patents

Publication Filing date Title
RU2392338C1 Method of heat-resistant nickel-based cast alloy obtainment
RU2394857C1 Polyimide binder for reinforced plastic, prepreg based on said binder, and article made therefrom
RU2389828C1 Method for application of zinc coatings
RU2398653C1 Device to produce casts with directed monocrystalline structure
RU2399477C1 Rough-grinding lathe
RU2384647C1 Method of thermomechanical treatment of products made of titanium alloys
RU2394861C1 Protective coating composition
RU2398732C2 Method of preparing polymer nanocomposites
RU2396367C2 Procedure for production of item out of high-strength aluminium alloy
RU2376397C1 Method of treatment of magnesium alloys
RU2392090C2 Method of composite material obtainment
RU2379239C1 Protective technological coating
RU2388727C1 Ceramic composite material
RU2379238C1 Protective technological coating
RU2382830C1 Method of surface calorising of internal cavity of turbine blade from heat-resistant alloy
RU2395475C2 Method of making aluminium oxide based high-temperature fibre
RU2373038C1 Nickel-based filler material
RU2382828C2 Method of receiving of cellular wearabiling material from metallic fibers
RU2371512C1 Method of product receiving from heatproof nickel alloy
RU2365657C1 Heat-resistant nickel-base wrought alloy and article made from this alloy