Structural-Energy Characteristics of Tribotechnical Contact in Unsteady Operational Modes

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DOI: 10.4236/mme.2016.63010    1,848 Downloads   2,797 Views  Citations

ABSTRACT

The current tribological research is intended to achieve maximum wear resistance under the structural adaptability of tribocoupling elements, which requires application of means to reduce the activation of the metal surface layers, decrease in frictional work, regulation of passivation and temperature control. The aim of this study is to identify the patterns that influence the kinetics formation of the boundary layers of lubricating mineral gear oil on activated friction contact surfaces, and the increment of the friction specific work on wear-resistant steel 42Cr4 and 100Cr6 in frequent start and stop operation mode. Due to the activation of surface layers of metal in the non-stationary operating conditions of the contact surfaces, the gradual forming of the boundary lubricant adsorption layers with increased effective viscosity in contact occurs, exhibiting high adaptation ability, and the boundary layer thickness is from 0.2 to 4 microns. This research analyzed the lubricating ability of oil at the starting maximum torque of friction, showing that the thickness of the oil layer formed in contact had a dual nature—boundary and hydrodynamic. The pure rolling conditions promote localization of shear in the lubricating layers, and the high frictional properties of the transmission oil have been identified regardless of the hardness of the investigated surfaces.

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Al-Quraan, T. , Mikosyanchik, O. , Mnatsakanov, R. and Zаporozhets, O. (2016) Structural-Energy Characteristics of Tribotechnical Contact in Unsteady Operational Modes. Modern Mechanical Engineering, 6, 91-97. doi: 10.4236/mme.2016.63010.

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