713-944-8381
Mon - Fri | 7AM - 5PM CST

New Trends in Oil Additives

Additive technology is significantly improving today

Thank you to everyone in research and development that innovates the lubrication industry! Let’s take a high-level view of several areas of advancement in oil additives.

Nanoparticles

Nanoparticles are increasingly being used as additives in lubricants to improve their performance and properties. Some examples of nanoparticles that are used as lubricant additives include:

•             Graphene: Graphene is a single layer of carbon atoms arranged in a hexagonal lattice. It is one of the strongest and lightest materials known to man. Graphene can be used as a lubricant additive to reduce friction and wear, improve heat dissipation, and extend the life of lubricants.

•             Molybdenum disulfide (MoS2): MoS2 is a layered material with a strong lamellar structure. It has excellent lubricating properties and can be used to reduce friction and wear under a wide range of conditions. MoS2 is also a good thermal conductor, which helps to dissipate heat away from lubricated surfaces.

•             Carbon nanotubes (CNTs): CNTs are cylindrical structures made up of rolled-up graphene sheets. They have excellent strength, stiffness, and thermal conductivity. CNTs can be used as lubricant additives to reduce friction and wear, improve heat dissipation, and extend the life of lubricants.

•             Metal oxides: Metal oxides, such as titanium dioxide (TiO2) and zinc oxide (ZnO), can be used as lubricant additives to reduce friction and wear, improve heat dissipation, and protect surfaces from corrosion.

•             Ceramic nanoparticles: Ceramic nanoparticles, such as boron nitride (BN) and silicon nitride (Si3N4), can be used as lubricant additives to reduce friction and wear under extreme conditions.

However, there are also some challenges associated with the use of nanoparticles as lubricant additives. One challenge is that nanoparticles can be expensive to produce. Another challenge is that nanoparticles can agglomerate, which can reduce their performance.

Overall, nanoparticles offer a number of promising advantages such as lubricant additives. As technology continues to develop and the cost of producing nanoparticles decreases, we can expect to see them being used in an even wider range of lubricant applications in the future.


Biodegradable Additives

A biodegradable additive is a substance that can be broken down by microorganisms into natural substances, such as water, carbon dioxide, and biomass. Biodegradable additives are used in a variety of products, including lubricants, plastics, and detergents.

In the context of lubricants, biodegradable additives can be used to improve the biodegradability of the lubricant itself, or to enhance the performance of the lubricant in other ways, such as reducing friction and wear.

Some examples of biodegradable lubricant additives include:

•             Plant-based oils, such as soybean oil and rapeseed oil. This oil can be used for a VI improver additive.

•             Esters, which are used as additives to increase solubility with other additives.

•             Polyalkylene glycols (PAGs), as a VI improver additive and they also have very good lubricity

•             Nanoparticles, such as graphene and molybdenum disulfide


Biodegradable lubricant additives offer a number of advantages over traditional additives, including:

•             Reduced environmental impact: Biodegradable lubricant additives can help to reduce the environmental impact of lubricants by making them more biodegradable and non-toxic.

•             Improved performance: Biodegradable lubricant additives can help to improve the performance of lubricants in terms of friction reduction, wear protection, and heat dissipation.

•             Extended service life: Biodegradable lubricant additives can help to extend the service life of lubricants by reducing their degradation and preventing the formation of deposits.


Biodegradable lubricant additives are expected to become more widely used in the near future, due to a combination of environmental regulations, consumer awareness, and technological advancements. Here are some specific examples of how biodegradable lubricant additives are being used today:

•             In the industrial sector, biodegradable lubricant additives are being used to develop lubricants for machinery and equipment that operates in sensitive environments, such as food processing plants and water treatment facilities.

•             In the aerospace industry, biodegradable lubricant additives are being used to develop lubricants for aircraft and spacecraft that operate under extreme conditions.

•             In the automotive industry, biodegradable lubricant additives are being used to develop more environmentally friendly engine oils and transmission fluids.

Overall, biodegradable lubricant additives offer promising advantages over traditional additives. As technology continues to develop and the cost of producing biodegradable additives decreases, we can expect to see them being used in an even wider range of lubricant applications in the future.


Smart Additives

Smart additives are a new generation of lubricant additives that can respond to changes in operating conditions and adapt their performance accordingly. This can help to improve the performance and efficiency of lubricants, while also extending their service life.

Smart additives are typically made up of nanoparticles or other materials that can change their properties in response to stimuli such as temperature, pressure, or shear stress. For example, some smart additives can become more viscous at elevated temperatures, which can help to improve lubrication under extreme conditions. Other smart additives can release anti-wear agents when needed, which can help to reduce wear and tear on machine components.

Smart additives are still in their early stages of development, but they have the potential to revolutionize the way that lubricants are used. Here are some of the potential benefits of using smart additives in lubricants:

•             Improved performance: Smart additives can help to improve the performance of lubricants in terms of friction reduction, wear protection, and heat dissipation.

•             Extended service life: Smart additives can help to extend the service life of lubricants by reducing their degradation and preventing the formation of deposits.

•             Reduced environmental impact: Smart additives can help to reduce the environmental impact of lubricants by making them more biodegradable and non-toxic.

•             Reduced maintenance costs: Smart additives can help to reduce maintenance costs by extending the service life of lubricants and reducing the need for repairs.


Smart additives are currently being developed and tested for a variety of applications, including:

•             Automotive: Smart additives are being developed to improve the performance and efficiency of engine oils, transmission fluids, and other automotive lubricants.

•             Industrial: Smart additives are being developed to improve the performance and durability of lubricants for machinery and equipment in a variety of industries, including manufacturing, mining, and energy.

•             Aerospace: Smart additives are being developed to improve the performance and reliability of lubricants for aircraft and spacecraft.

Smart additives have the potential to offer a number of significant advantages over traditional lubricant additives. As technology continues to develop and the cost of producing smart additives decreases, we can expect to see them being used in an even wider range of lubricant applications in the future.

Wed Oct 25 2023, by Gene Wagenseller
Go Back