On the contrary, low viscosity fluids are more volatile, creating environmental problems. Oils with too high viscosity don't protect well against mechanical friction, resulting in heat generation. Viscosity will affect the thickness of the oil film as well as the effectiveness of its protective qualities. These films are used to protect equipment from mechanical wear and may also have extra benefits such as creating a barrier to corrosion. The kinematic viscosity is defined as fluid resistance. The viscosity of oil and lubricants are often measured in industrial settings. Kinematic viscometers determine the kinematic viscosity by measuring the time it takes for the fluid to pass through a portion of a capillary. Care must be taken when interpreting values and the temperature at which the values were measured. Understanding the distinction comes into play in industrial settings as record data is normally reported as kinematic viscosity, but onsite measurements are often measured as dynamic viscosity. Kinematic viscosity is not the same as dynamic viscosity, although they are related mathematically by the density of the fluid. Kinematic viscosity is defined as the quotient of a fluids absolute viscosity in centipoises over its specific gravity, both measured at the same temperature. This intermolecular friction is what makes the fluid resistant to change in shape and explains the thick and slow moving properties of highly viscous fluids. For a complex fluid in which a solvent viscosity s. The stronger the intermolecular force, the more the molecules will stick together as they collide, manifesting a frictional interaction. Kinematic viscosity has dimensions of L2T-1 and is thus sometimes referred to as a momentum diffusivity. Strongly polarized interactions like hydrogen bonding in water or interactions between large non-polar surfaces in viscous oils produce stronger intermolecular forces. Viscosity results from the intermolecular forces between molecules in a liquid. Corrosionpedia Explains Kinematic Viscosity
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