All About Insolubles
What are they and what causes them to form?
Once upon a time I lived in primitive conditions as a soldier in a war zone. We had few amenities, eating our three daily meals from a can.
The morning coffee routine wasn’t very refined, either. The cooks worked in a tent. They heated water for coffee in large 15-gallon pans over a gasoline-fired stove. To make coffee they simply dumped tins of ground coffee beans into the boiling water, and after it steeped for a while, the water turned brown. When it appeared to be the right color, the heat was turned down and the churning grounds—at least most of them—settled to the bottom. If you were early when you passed through the chow line, you got a top-of-the-brew serving that wasn’t bad. If you were late and your cuppa joe came from somewhere near the bottom, you could chew it.
We enjoyed the coffee grounds in our coffee as much as your engine enjoys insoluble materials in its oil. These days, there’s usually only one reason I find grounds in my coffee: the coffee filter failed for one reason or another. Usually, one or more of the filter pleats has laid down, letting grounds overflow the rim. But the insolubles in your engine’s oil are not quite as simple as the grounds in my Mr. Coffee machine. There are many reasons that insolubles form in a gas or diesel engine oil sample.
Insolubles are solids
Insolubles are the total solids we find in an oil sample. Insolubles are often caused by oxidation, which is a natural process that occurs when oil is exposed to heat or oxygen (in the air).
Oxidation leaves free carbon in the oil when the oxygen molecules combine with hydrogen. Virgin oil usually doesn’t have any insoluble materials in it. When it occasionally does, the most we normally find is a trace level. The insolubles in virgin oil are from the normal oxidation process of the oil. At least some of the insolubles in the oil samples we analyze are free carbon particles, which are hard particles that can damage sensitive, close tolerance parts like friction bearings.
Keeping insolubles within the normal range is important for anyone wanting to run extended oil change intervals, but it’s also important to anyone wanting to get the longest life possible from their engines.
Measuring Insolubles
There are various methods of measuring insolubles in oils. One way is to draw the oil through a very fine filter (½ micron) and then weigh the filter. The filter’s weight gain is reported as a percentage of insoluble materials by weight, compared to the weight of the sample that was drawn through the filter. Another measuring method rates the darkness of the filter patch compared to a standard.
The insolubles test we use at Blackstone is a centrifuge method. A measured volume of oil is mixed with a heated solvent, agitated, and spun at high speed. Insoluble materials collect at the bottom of a tapered glass tube and can then be measured as a percentage of the sample by volume.
The insolubles test is a good measure of how fast the oil is oxidizing and receiving contaminants from blow-by or other engine systems, and how effectively the system’s oil filtration is functioning.
Any contaminant in the oil will accelerate its tendency to oxidize, so the insolubles test is a good crosscheck when we suspect a contaminant like gas, moisture, or coolant. Excessive metals in an oil sample will also increase the oxidation tendency. So will frequent and/or extreme heat cycles. Stop-and go-driving is harder on engine oils (and creates more insolubles) than highway driving, because the engine experiences more heat cycles.
What Causes Higher Insolubles?
We like to see insolubles for gas engines at or below about 0.5% or 0.6%, depending on the type of engine. Some diesel engines are cleaner than others so the normal range may run from 0.5% to 0.8%.
As engines age insolubles in the oil tend to increase. You may think, judging from the appearance of a used diesel engine oil, the insolubles would be unbearably high. Actually, the blackness of these samples is from fuel soot, which is clearly distinguishable from, but also contributes to, insolubles. Fuel system and combustion problems will cause excessive soot. If we detect excessive soot in your (diesel) oil sample, we will mention it in the comment section.
If we found no contamination (soot, coolant, etc.) in your oil and your oil change intervals are normal, we often mention a problem at oil filtration as a possible cause of high insolubles. The oil filter could be inferior. Or, it’s possible the oil filter bypass valve relived if the filter was becoming restricted. The filter system bypass may also open upon cold starts when the oil is too thick to pass through the filter media, which may be partially restricted. Once the bypass relieves, the filter is effectively out of the system. Insolubles may also be forming because your oil use interval is too long for the operating environment of the engine, and your oil filtration system can’t keep up.
Insolubles are just one of the tests we provide to determine the condition of your diesel and gas engines and used oils. It’s an important test that helps us gauge the condition of your oil and engine, and helps keep you driving happily for many miles to come!
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