摘要:
The invention relates to a method for CVD on a substrate under atmospheric pressure, characterized in that it is assisted by a very-high-frequency plasma generated by a field applicator with an elongated conductor of the micro-ribbon or hollow conducting line type. The invention also relates to the use thereof for applying an electrically conductive inorganic layer on elements of vehicle bodywork, particularly the bumpers.
摘要:
The invention relates to a method for processing the surface of polymer substrates, during which the substrate is subjected to a dielectric-barrier electric discharge of the filament type in a gaseous processing mixture containing at least a carrier gas and an active gas and under a pressure substantially equal to the atmospheric pressure, characterized in that the active gas is selected from the group including a mono-unsaturated or poly-unsaturated linear or branched hydrocarbon preferably containing 2 to 10 carbon atoms, more preferably 2 to 5 carbon atoms and even more preferably 2 or 3 carbon atoms, the residual oxygen content of the processing mixture being lower than 250 ppm, preferably lower than 100 ppm, and more preferably lower than 50 ppm.
摘要:
The invention relates to a method for controlling data transmission in a communication system transmitting data in packet format between a first (142, 162) and a second (170) transceiver on at least one physical channel. To transmit data blocks between the first and the second transceiver, at least one logical connection is established, each logical connection using ARQ error correction and a related transmission window. The number of logical connections is selected on the basis of the number of data blocks per unit of time, which can be transmitted between the first and the second transceiver.
摘要:
Composite material for storing heat energy at high temperatures (225° C. to 488° C.) formed by a porous carbon structure at least partially filled with LiOH/KOH, wherein a large amount of heat energy may be stored or released very quickly. The carbon structure is characterised by a high volumetric thermal conductivity, a low density, a highly interconnected porosity and a relatively high modulus of elasticity. The significant properties of LiOH/KOH mixtures are: a large amount of energy involved in full melting/crystallisation, a fairly low relative volume expansion upon melting and fairly low subcooling. The main advantages of the resulting composites are a very high energy density, a relatively low volume expansion, highly enhanced heat transfer, thermoadaptability, stability and insignificant hysteresis.