Superlow Interaction in Layered Structures
Keywords:
vacuum ion-plasma coating methods, particle, atom, cluster, electron diffraction and electron microscopy studies, superconductivity, superfluidity, su
Abstract
The article investigates the impact of technology of the properties of thin films of anisotropic laminated structures. Performed electron diffraction and electron microscopy studies of the structure. Testing of the tribological properties. The positive effect of applying wear-resistant underlayer and alloying of the coating material, which led to a significant increase in the durability and appearance of superlow friction. The generalized model of non-dissipative transport of mass (energy) in the absence of resistance forces during the move. Found that the superlow friction, superconductivity and superfluidity are related phenomena defined phase transition particle energy distribution across the critical value (energy potential barrier). Energetically favorable arrangement of the particles in the crystal lattice for the non-dissipative movement in the lack of forces of resistance are the spaces of Van der Waals in layered systems where possible prediction of the investigated phenomena.
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Published
2014-01-15
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