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NII PRIRODNYKH SINT ALMAZOV I INSTR OAO VNIIALMAZ AOOT

Overview
  • Total Patents
    12
  • GoodIP Patent Rank
    218,546
About

NII PRIRODNYKH SINT ALMAZOV I INSTR OAO VNIIALMAZ AOOT has a total of 12 patent applications. Its first patent ever was published in 2010. It filed its patents most often in Russian Federation. Its main competitors in its focus markets machine tools are SUZHOU SAILI PREC TOOLS CO LTD, HEY SAMUEL and MIZUHO KENMA TOISHI KK.

Patent filings in countries

World map showing NII PRIRODNYKH SINT ALMAZOV I INSTR OAO VNIIALMAZ AOOTs patent filings in countries
# Country Total Patents
#1 Russian Federation 12

Patent filings per year

Chart showing NII PRIRODNYKH SINT ALMAZOV I INSTR OAO VNIIALMAZ AOOTs patent filings per year from 1900 to 2020

Focus industries

# Industry
#1 Machine tools

Focus technologies

# Technology
#1 Grinding tools

Top inventors

# Name Total Patents
#1 Dudakov Valerij Borisovich 9
#2 Zhuravlev Vladimir Vasil Evich 8
#3 Kachko Vladimir Vladimirovich 6
#4 Bojtsov Aleksej Georgievich 5
#5 Gerasimov Valerij Fedorovich 4
#6 Pleshakov Andrej Sergeevich 4
#7 Gubin Sergej Pavlovich 2
#8 Zlochevskij Garol D Davidovich 2
#9 Laptev Aleksandr Ivanovich 2
#10 Udalov Mikhail Aleksandrovich 2

Latest patents

Publication Filing date Title
RU2570069C1 Method of producing graphene
RU2558734C1 Weight for diamond tool manufacturing
RU2535195C1 Mixture for making diamond tool
RU2534484C1 Method of tool pin production for friction welding with mixing
RU2513049C1 Impregnated diamond crown bit
RU2484888C1 Method of making polycrystalline material based on cubic boron nitride containing diamonds
RU2484935C1 Method of making inner rectangular and curvilinear channels in parts
RU2476376C2 Method of synthesizing diamonds and diamond polycrystals
RU2476298C2 Device for friction welding of long-sized parts
RU2476618C2 Method for obtaining composite materials with high content of powders of diamond and/or cubic boron nitride
RU2424884C1 Device for orbital friction welding
RU2425162C1 Procedure for fabrication of cutting elements on base of powders of super-hard materials