Tag: engine oil

Lubricants for Cold Weather

Posted on by Twin Specialties in Blog Tagged , , , , , , , , , , , ,

During the winter months and in cold weather regions, operators will face cold starts regularly and must select lubricants that ensure proper performance and protect your machine or engine. We will focus on key features that will differentiate lubricants that excel in cold weather and lubricants that will lead to machine or engine failure.

Viscosity

Not all cold starts are equal. There are varying temperatures and the lubricant you need will depend on the ambient temperature. If temperatures are below -20 C/- 4 F, it is recommended to use base oils that can flow in low temperatures. For engine oils, using an SAE 0W or SAW 5W grade lubricant is recommended. When the temperature drops below -30 C/- 22 F, operators should use a SAE 0W or SAE 5W lubricant, but whose base oil is a synthetic base stock and/or a base oil that is considered “multi-grade” or “multi-viscosity.”

Many of these multi-viscosity and multi-grade lubricants are designed for extreme weather conditions including cold start conditions. These lubricants maintain their viscosity better than conventional lubricants. Generally, multi-viscosity lubricants exhibit viscosity characteristics found in 2 different ISO viscosity grades (i.e. ISO 32-46) and multi-grade lubricants exhibit viscosity characteristics found in 3 different ISO viscosity grades (i.e. ISO 32-46-68).

Viscosity Index

When the temperature drops, the lubricant becomes more viscous, thus making it more difficult to circulate and flow through the engine or machine. Having a lubricant with a high viscosity index, defined as a viscosity index greater than 130, ensures that your lubricant better maintains its viscosity in extreme temperatures. Lubricants with high viscosity indices have either a highly refined or synthetic base stock or include viscosity index improver additives.

Monograde lubricants will have viscosity indices in the 95-105 range and will not perform as well as in cold start conditions. Many operators will use different monograde lubricants depending on the ambient temperature. This may cause issues with change outs and cold temperature properties.

Pour Point

As mentioned earlier, not all cold starts are created equal. In colder temperatures, a lubricant’s pour point could be the difference between success and failure. Pour point is defined as when a lubricant no longer flows and congeals. When operating in temperatures below -30 C/-22 F, it is imperative to use a lubricant with a pour point lower than -50 C/-58 F. Similar to viscosity index, lubricants with highly refined or synthetic base stocks have lower pour points. Some lubricants are manufactured with pour point depressants that prevent wax formation and the congealing of the lubricant.

Oil Integrity and Storage

While you can meticulously select the perfect lubricant based on your OEM requirements, ambient climate, and budget, it could be costly if you do not maintain it properly. Just like any oil, it is important to regularly check the oil for cleanliness and contamination. Taking regular samples is key to ensure your lubricant and machine is in good health. When storing lubricants. It is helpful to store the lubricant indoors or in a warmer environment so that it flows easily during start-up. Proper storage will also protect against contamination. If contaminated, the additives such as VI improvers or pour point depressants may not be as effective and could hurt lubricant performance.

What are Lubricant Detergents?

Posted on by Twin Specialties in Blog, Know Your Additives Tagged , , , , , , , , , ,

Detergents Defined

Detergent additives perform two key functions. Like household detergents, the additives keep metal components clean and free of deposits. Additionally, detergents neutralize acids that form in the oil. This is key for systems where component cleanliness is essential. Originally developed for engine oils, detergents addressed carburetor deposits that could hamper performance. Detergent additives were also found effective in fuel injectors. The detergents reduced deposits that affected fuel spray patterns.

How do Detergents Work?

Detergent additives are basic in nature, thus serve as a neutralizer for acidic contaminants that may arise in your lubricant. In the past, these detergents were barium-based, however modern chemistry has allowed manufacturers to move to different formulations. Today, most additives use either calcium-based chemistry or magnesium-based chemistry. As an oil is subjected to oxidation, it will start to collect acids. As these acids build up, the oil’s Total Acid Number (TAN) will increase. The basic and alkaline detergent will neutralize the acids and reduce the TAN. However, as the detergent is used, the Total Base Number (TBN) will decrease to point where the oil will need to be replaced. Therefore, measuring TBN is crucial to engine performance and lubricant effectiveness.

In high-temperature applications, metal compounds leave an ash deposit when burned. This residue buildup requires many OEMs to require low-ash oils. Detergent additives are used to clean these deposits. However, dispersants are included as well to help clean the engine. Dispersants are used to keep engine soot particles suspended and prevent agglomeration (forming larger soot deposits). The dispersant and detergent work together to suspend contaminants and neutralize acids. Eventually, the additive capacity will exceed its limit and require users to change the oil and replenish the additives.

Detergent v. Non-Detergent Oil

How do you know if you need a lubricant with detergent additives? Usually, an OEM will specify whether the equipment needs a detergent oil or non-detergent oil. Applications that could face high levels of water and contamination are good fits for detergent oil. Some examples include: off-road equipment, marine equipment, trucks & fleets, and many more. The high levels of contamination need to be neutralized with dispersants in order to keep pumps and valves clean and running.

Sometimes, OEMs require oils to not have detergent additives. Some manufacturers will produce special Non-Detergent oil to meet these specifications since, most oils now have detergent additives for better performance. Non-detergent oils are used in bearings and chains in non-critical once-through systems. It is also recommended for gas-powered appliances such as lawnmowers and tractors. Some non-detergent oils are not recommended for automotive gasoline engines (detergent oils are recommended).

Detergent Oil Today

With the developments in detergent and dispersant technology, most oils now have some sort of detergent additive to help combat high TANs and prevent sludge build-up. Even though non-detergent oil is still marketed today, it is only required for a few specific applications and not recommended by many OEMs. When selecting your lubricant, detergency is important to consider because high detergency will protect your parts, keep your system clean, and maximize performance. If you are using non-detergent oil, consider making the switch to an oil that has detergent additives.

Twin Specialties offers both detergent and non-detergent oils to meet your specifications and OEM requirements. We also offer a variety of motor oils and heavy duty engine oils with high-quality detergent additives to meet your specifications and budget. Contact us today for more information.