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INST FIZ KHIM KERAMICHESKIKH M

Overview
  • Total Patents
    13
About

INST FIZ KHIM KERAMICHESKIKH M has a total of 13 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 environmental technology are CHANGSHU HUAJI BOILER MFG CO LTD, NIKOLAEV V P and MARTOCH JOSEF.

Patent filings in countries

World map showing INST FIZ KHIM KERAMICHESKIKH Ms patent filings in countries
# Country Total Patents
#1 Russian Federation 13

Patent filings per year

Chart showing INST FIZ KHIM KERAMICHESKIKH Ms patent filings per year from 1900 to 2020

Focus industries

Focus technologies

Top inventors

# Name Total Patents
#1 Barinov Sergej Mironovich 10
#2 Smirnov Valerij Vjacheslavovic 7
#3 Kubarev Oleg Leonidovich 6
#4 Fadeeva Inna Vilorovna 6
#5 Komlev Vladimir Sergeevich 5
#6 Solntsev Konstantin Aleksandro 3
#7 Tel Nova Galina Borisovna 2
#8 Vorogushin Viktor Tikhonovich 2
#9 Drobakha Grigorij Sergeevich 1
#10 Egorov Aleksej Aleksandrovich 1

Latest patents

Publication Filing date Title
RU2337433C1 Accumulator with sodium anode and ceramic electrolyte
RU2322296C1 Method of preparing catalyst for treating internal combustion engine exhaust gases and catalyst obtained by this method
RU2322228C1 Composition material for filling osseous defects based on calcium-phosphate cement
RU2299869C1 Method of preparing porous ceramic calcium phosphate granules
RU2297249C1 Method for preparing composition material for filling osseous defects
RU2303580C2 Method for manufacturing hydroxyapatite ceramics with bimodal distribution of pores
RU2292865C1 Material for filling maxillofacial and dental bone defects
RU2292866C1 Material for filling maxillofacial and dental bone defects
RU2292868C1 Material for filling maxillofacial and dental bone defects
RU2292867C1 Material for filling maxillofacial and dental bone defects
RU2281121C1 Material for substituting bone tissue defects
RU2280017C1 Charge for the carbonate hydroxyapatite ceramics
RU2280927C2 Method for operating thermoelectrochemical generators (tecg) to produce hydrogen using ionizing radiation