As engines have evolved, the lubricants that keep them running have changed with them.
Diesel engines have been around for more than half a century. Chances are that if you are around fleets or equipment, you have encountered a diesel engine. They have been described as the workhorses of the industry, and they provide users across industries with the power they need. Whether it’s in the form of a generator for a medical facility, a tractor engine on a farm or an engine on a school bus, diesel engines are everywhere.
Diesel engines have evolved, and a diesel engine today may not exactly line up with the diesel engines of the past. However, their evolution has been slower than that of the gasoline engine. For instance, many diesel engines today still use a 40-weight oil (albeit multigrade or semi-synthetic) which can tell us about the changes in the viscosity requirements over the years.
This column explores how the specifications changed to get a better idea of:
- The evolution of diesel engine oils
- Some reasons behind its degradation
- Ways that degradation sources can be identified through oil analysis
Understanding Diesel Engine Oil Specifications
As per the American Petroleum Institute (API), the standards governing Diesel Engine oils began with the CA spec which became obsolete in 1959. The latest diesel engine oil standards were upgraded to CK4 and FA4 in December 2016. On the other hand, the gasoline spec entered its latest standard, the SP spec which includes 0w16 and 5w16, in May 2020.
What Does This Mean for Your Fleet?
Most API standards are backward compatible. This means that an engine that requires a CJ4 spec oil can still use a CK4 spec oil, but the reverse is not true.
For more modern engines, oils have been engineered following environmental regulations that did not exist 50 years ago. Additionally, these newer engines now have more demand compared to older engines.
As such, the oil is under more duress and must perform under these conditions. Newer oils are formulated with this in mind.
CK4 oils provide enhanced protection against oil oxidation and viscosity loss caused by shear and oil aeration, catalyst poisoning, particulate filter blocking, engine wear, piston deposits, degradation of low- and high-temperature properties, and soot-related viscosity increase compared to the CJ4 oils (API, 2024). It must be noted that FA4 oils are not backward compatible with the CJ4 oils nor are they intended for on- or off-highway applications which require CJ4 oils.
The FA4 oils are blended to a high-temperature, high-shear (HTHS) viscosity range of 2.9 centipoise (cP) to 3.2 cP to assist in reducing greenhouse gas emissions. They are especially effective at sustaining emission control system durability where particulate filters and other advanced aftertreatment systems are used.
These oils also provide enhanced protection against oil oxidation and viscosity loss caused by shear and oil aeration. In addition, they protect against catalyst poisoning, particulate filter blocking, engine wear, piston deposits, degradation of low and high-temperature properties, and soot-related viscosity increase.
What’s the Difference Between CK4 & FA4 oils?
CK4 oils are specifically designed for use in high-speed, four-stroke-cycle diesel engines designed to meet the 2017 model year, on-highway and tier 4, non-road exhaust emission standards and for previous model year diesel engines. However, these are also formulated for diesel engines using diesel fuel ranging in sulfur content up to 500 parts per million (ppm) (0.05% by weight). Diesel fuels that contain more than 15 ppm (0.0015%) may impact the exhaust aftertreatment system’s durability and/or the oil drain interval.
On the other hand, FA4 oils are xW30 oils specifically designed for use in select high-speed, four-stroke-cycle diesel engines designed to meet 2017 model year, on-highway greenhouse gas emission standards. These are particularly formulated for diesel fuels with a sulfur content up to 15 ppm (0.0015% by weight).
API FA-4 oils are not interchangeable or backward compatible with API CK-4, CJ-4, CI-4, CI-4+ and CH-4 oils. Additionally, these oils cannot be used with diesel fuel containing between 500 ppm to 15 ppm of sulfur.
Figure 1 shows the API donut for both specifications as detailed by (API, 2016). This API donut typically appears on every diesel engine oil that is sold (those that are original and not counterfeit).
