|
RU2626795C1
|
|
Node of connection of ceramic shell with metallic bend
|
|
RU2626385C1
|
|
Installation for curing liquid radioactive waste
|
|
RU2626102C1
|
|
Mixture of powder materials of gravitational type
|
|
RU2622240C1
|
|
Working substance for thermoexoelectronic dosimetry of high-energy electronic radiation
|
|
RU2624993C1
|
|
Autodyne transmitter-receiver of the atmospheric radio probing system
|
|
RU2620594C1
|
|
2-furyl-6-nitro-1,2,4-triazolo [1,5-a] pyrimidine-7-one
|
|
RU2617168C1
|
|
Solution for hydrochemical precipitation of semiconductor films of indium selenide
|
|
RU2615403C1
|
|
Method of extracting uranium from ground water
|
|
RU2620986C1
|
|
Method for determining thickness of flat layer
|
|
RU2626677C1
|
|
Application of pharmaceutical composition of 2-morpholino-5-phenyl-6h-1,3,4-thiadiazine with ascorbic acid as means for alloxan diabetes correction
|
|
RU2620985C1
|
|
Method for measuring fluid flow rates in microchannels
|
|
RU2617495C1
|
|
Method for producing aluminium nitride whiskers
|
|
RU2613157C1
|
|
Method of purifying contaminated raw material for separating production
|
|
RU2618293C1
|
|
Method for uranium extraction from diluted solutions and natural waters
|
|
RU2614365C1
|
|
Method of determining antioxidant activity using electron paramagnetic resonance spectroscopy method
|
|
RU2614942C1
|
|
Resistive material based on glass chalcogenides with nanotubes
|
|
RU2617350C1
|
|
Method for producing photosensitive chemically deposited films of lead selenide
|
|
RU2613472C1
|
|
V-like twin screw mover for floating facilities (versions)
|
|
RU2618426C1
|
|
Method for determining antioxidant activity using radical initiators
|
|
RU2614738C1
|
|
Resistive material based on non-stoichiometric sulphides
|
