CONDITION monitoring specialist company, WearCheck, examines a very special class of additives that is gaining importance as the technical demands placed on lubricants continue to grow at an ever-increasing rate โ Viscosity Index Improvers (VIIs).Technical manager for WearCheck, Steven Lumley, explains: โVIIs are large-polymer additives that partially prevent the oil from thinning out (losing viscosity) as operating temperatures increase. They are also responsible for better oil flow at low temperatures, resulting in reduced wear and improved fuel economy.
โTo visualise how a VII additive functions, think of the VII as an octopus that stays coiled up in a ball at low temperatures and has very little effect on the oilโs viscosity.
โThen, as the temperature rises, the additive (or octopus) expands or extends its tentacles, making it larger, and preventing the oil from thinning out too much at high temperatures.
โVIIs are used in multi-grade engine oils, automatic transmission fluids, power-steering fluids, gear oils, and certain hydraulic fluids. By far, the most common application is for passenger cars and heavy-duty trucks in on-highway and off-highway applications. Over 80% of all VIIs sold in the lubricant market globally are used in these applications.
โUnfortunately, VIIs do have a couple of negative attributes. The additives are large (high molecular weight) polymers, which makes them susceptible to being cleaved into small pieces due to shearing forces experienced in certain mechanical environments e.g., gears are notoriously hard on VII additives. Permanent shearing of the VI-improver additive can cause significant viscosity losses.
โA second type of viscosity loss occurs due to high shearing forces in the load zone of frictional surfaces e.g., in journal bearings. The VII loses its shape or uniform orientation and therefore loses some of its thickening ability. When this happens, the viscosity of the oil temporarily drops within the load zone, but rebounds to its normal โviscosity after it leaves the load zone.
Higher-molecular-weight VIIs make better thickeners, but tend to have less resistance to mechanical shear. Lower-molecular-weight VIIs are more shear resistant, but do not improve viscosity as effectively at higher temperatures and, therefore, need to be used in larger quantities.
โThere are several different types of VII additives, but not all are equal. High-quality VIIs are less susceptible to permanent shear loss than low-cost, low-quality VIIs. It is for this reason that the polymer(s) selected is/are vital to the effectiveness of the VII additive and over-all performance of the lubricant at varying operating temperatures. This is especially true of high-temperature, high-shear (HTHS) applications.
โAs equipment manufacturers continue to move to both low-viscosity grades and lower (HTHS) lubricants, market demand for this additive is set to increase.โ
Visit www.wearcheck.co.za for more information.
