Engine oil

The composition of engine oil

Depending on their type and performance, modern engine oils are based on different base oils or base oil compounds. Additives are also used which perform a variety of tasks. A high-performance engine oil can only be achieved with a balanced formula (base oil and additive components). The composition of a typical engine oil is as follows:

• 78% base oil
• 10% viscosity improvement additive (to improve flow) 
• 3% detergent (detergent substances which clean the engine) 
• 5% dispersant (for the suspension of dirt particles) 
• 1% wear protection 
• 3% other components

Viscosity

Viscosity is one of the most important properties of engine oil. The viscosity of an oil is always marked on its barrel. Viscosity is measure of a fluid's resistance to flow. It is determined by the internal friction which resists the flow of adjacent particles in the fluid. As long ago as 1911, viscosity provided the basis for the first engine oil classification system and was defined in the Society of Automotive Engineers (SAE) classification system. Most of the oils used today are multi-grade oils. SAE 5W30 is an example of a viscosity designation of a multi-grade oil. Measures of viscosity are based on two variables:

Dynamic viscosity

This describes the engine oil's resistance to flow at low temperatures. Oils are divided into the winter viscosity classes 0W, 5W, 10W, 15W, 20W, 25W. The smaller the number in front of the W, the lower the viscosity of the oil at cold temperatures. Dynamic viscosity affects the starter speed when the engine is cold, for example. The lower the cold viscosity index, the easier the cold engine will turn over on starting.

Kinematic viscosity

Kinematic viscosity describes the ratio between dynamic viscosity and the thickness of the engine oil at a certain temperature. SAE summer viscosity classes are classified at a test temperature of 100°C. Typical viscosity classes are 20, 30, 40, 50 and 60. The larger the number in front of the W, the higher the viscosity of the oil at 100°C.

HTHS

The viscosity classes referred to above (winter and summer) are supplemented by what is known as HTHS viscosity. HTHS stands for High Temperature High Shear. It describes dynamic viscosity measured at 150°C and under higher shear forces. It is expressed in millipascal seconds (mPas). HTHS limit values are defined to ensure that even in bearings (where both shear forces and oil temperatures are high), engine oils can be relied upon to provide the necessary lubrication. The limit value for engine oils with specification ACEA A2/A3 and ACEA B2/B3 is to be found at an HTHS of 3.5 mPas. Engine oil qualities in category ACEA A1/B1 have a reduced HTHS of up to 2.9 mPas. Fuel consumption should be lower as a result of the reduced HTHS index.

Engine oil mixability

As a general rule, engine oils can be mixed together regardless of whether they are synthetic-based or mineral-oil-based. Mixing is even encouraged by motor companies. However, engine oils of different brands or compositions should only be mixed if the requirement for topping up cannot be met in any other way. Accordingly, it is not recommended to mix synthetic or semi-synthetic engine oils with mineral-oil-based engine oils as this will lower the higher quality standard of synthetic oils. The quality rating is only as good as the weakest link in the chain. Extensions to the intervals for changing lubricants mean that oils have to meet increasingly tough requirements. For example, modern engine oils have to maintain constant performance throughout their service life as well as exhibiting high thermal and oxidative stability for a long service life and optimised friction characteristics to reduce energy losses.