In such cases, lubricants get thicker and add up resistance to the movement of elements. On the other hand, viscosity of lubricant can also be critical for the performance of applications at sub-zero atmospheres. Another major source of heat is the high temperature operating environment (e.g. gears, bearings, engines), temperature rise due to friction induced heating is inevitable. Loss in lubricants viscosity may lead to severe performance issues of mechanical systems in industry and transportation applications. Oil viscosity often declines rapidly with respect to rise in temperature. Sustainability of lubricating film between contacting bodies in mechanical systems is often critical owing to the highly sensitive nature of lubricants temperature-viscosity relationship. Temperature-viscosity characteristics of lubricating oils and/or greases is one of the important determinant for lubricants performances in mechanical systems. However, it is also known that temperature impacts the viscosity. It is well-known from Hydrodynamic Lubrication Theory that viscosity plays a central role in the lubrication regime encountered in the machine element – the higher is the viscosity, the thicker is the oil film that separates the surfaces from touching each other. Viscosity is a measure of a lubricating oil’s resistant to flow.
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