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BASHKIRSKIJ G UNI IM 40 LETIYA

Overview
  • Total Patents
    15
About

BASHKIRSKIJ G UNI IM 40 LETIYA has a total of 15 patent applications. Its first patent ever was published in 1990. It filed its patents most often in Russian Federation. Its main competitors in its focus markets environmental technology are WUXI CHENGBO SCIENCE & TECHNOLOGY DEV CO LTD, NII METALL TEPLOTEKHNIKI OAO VNIIMT AOOT and MITO GREEN SERVICE KK.

Patent filings in countries

World map showing BASHKIRSKIJ G UNI IM 40 LETIYAs patent filings in countries
# Country Total Patents
#1 Russian Federation 15

Patent filings per year

Chart showing BASHKIRSKIJ G UNI IM 40 LETIYAs patent filings per year from 1900 to 2020

Focus industries

Top inventors

# Name Total Patents
#1 Shchelchkova Tatyana G 2
#2 Murza Mariya M 2
#3 Minsker Karl S 2
#4 Filippov Aleksandr I 2
#5 Talipov Rifkat F 2
#6 Latypova Flyura M 2
#7 Bajmatov Valerij N 2
#8 Zubarev Boris N 2
#9 Abdullin Marat I 2
#10 Ivanova Svetlana R 2

Latest patents

Publication Filing date Title
RU2056845C1 Stimulant of bile secretion and motor function of intestine at animals
RU2072342C1 Method for ionic hydrogenation of low molecular weight olefins
RU2072341C1 Method for ionic hydrogenation of low molecular weight olefins
RU2072322C1 Silicate glass blend, method for preparation thereof, and method for silicate glass melting
RU2076880C1 Method of recovering secondary polyethylene
RU2043347C1 Method for production of 3-acetoxytetrahydro furan
RU2043348C1 Method for production of 3-alkyl-2,5-dihydro furans
RU2093531C1 Polymer composition
RU2073856C1 Method of determination of mechanical stresses and magneto-elastic transducer for determination of mechanical stresses
RU2030413C1 Derivatives of dihydropyran showing herbicidal activity
RU2053672C1 Agent stimulating accumulation of vegetable biomass
RU2052463C1 Dioxo-di-beta-alaninato-molybdenum showing hepatoprotective property
RU1800319C Method of disperse analyzing particles of suspension and device for realization
RU1819323C Method of thermal sounding of penetrable formations
RU1822459C Method of evaluating seam insulation in oil-and-gas bearing holes