Infrared spectral studies of copper-containing film from steel sample (worn in pair with brass in glycerol) friction zone are performed in the study. The protective film formed by the interaction of the friction triad...Infrared spectral studies of copper-containing film from steel sample (worn in pair with brass in glycerol) friction zone are performed in the study. The protective film formed by the interaction of the friction triad having functional groups typical for macromolecular compounds is shown.展开更多
The description of experimentally observed phenomenon of abnormally high electrical conductivity—'superconductivity' (SC) at the room and higher temperatures is represented. The effect was observed in metalli...The description of experimentally observed phenomenon of abnormally high electrical conductivity—'superconductivity' (SC) at the room and higher temperatures is represented. The effect was observed in metallic monospirals of small radius curvature with high density and regular distribution of dislocations. Transition into state of SC has been observed experimentally in the range from –50 up to 3000°C at the density of transmitting current up to 2·109 A/cm2. The experimental data confirming the watched phenomenon are represented. The explanations of this phenomenon are being proposed in the framework of the dislocation model.展开更多
文摘Infrared spectral studies of copper-containing film from steel sample (worn in pair with brass in glycerol) friction zone are performed in the study. The protective film formed by the interaction of the friction triad having functional groups typical for macromolecular compounds is shown.
文摘The description of experimentally observed phenomenon of abnormally high electrical conductivity—'superconductivity' (SC) at the room and higher temperatures is represented. The effect was observed in metallic monospirals of small radius curvature with high density and regular distribution of dislocations. Transition into state of SC has been observed experimentally in the range from –50 up to 3000°C at the density of transmitting current up to 2·109 A/cm2. The experimental data confirming the watched phenomenon are represented. The explanations of this phenomenon are being proposed in the framework of the dislocation model.
