Gear Oil - Heat, Break in, Frequency, synthetic, dyno, brand?

Cperry

Well-Known Member
Joined
Apr 24, 2005
Location
Durham, NC
We get asked about gear oil at least 10 times a day. Then we get asked why, which is long winded. Figured we would post here for anyone wondering. This breaks it down how, what, when, where, why....

ECGS Gear Oil Recommendation - Why We Recommend Non-Synthetic Oil

ECGS recommends Dyno (Non-Synthetic) 85w140 Lucas oil with a Ford or Dana limited slip additive for clutch style posi's. The gear oil question is an age old debate that comes down to opinion. We base our opinion on differentials we have seen. Scientifically it has been proven that that when measuring diff temps, the actual “metal objects” stay cooler using a quality dyno oil with an additive package over synthetic oils. However it has been proven that synthetic “oils” can stay cooler then dyno oil. So it depends on what temperature you measure the “metal” or the “oil” hence why both can claim they are better.

Other findings and this varies based on the actual synthetic used. Synthetics thin out quickly once hot and lose their cling ratio to the metal object, when the oil is stuck to the gear it provides a cooling factor for the metal. We also believe that dyno oil has better pressure properties, ie it provides a better cushion then synthetic for two reasons. First, it does not thin out as much and two it clings to the gear.

Another important attribute of differential oil is water separation. A gear oil that will hold its separation from water will protect the differential. It is in our experience that if you add water to a diff with Synthetic there is no clear delineation between the two. On a dyno oil there is excellent water separation properties. Water will ruin diffs as it affects its pressure properties resulting in surface wear quickly, so any oil that keeps its separation properties will outperform one that will not.

An easy not so scientific test is to install synthetic and run your diff for 30 minutes, pop cover and watch how it comes out and feel it. Most we have seen are extremely thin and act almost like water. Same test with Lucas it runs slower and will be stuck to the gear.

All synthetics cost more money than Lucas dyno oil, and I feel there is a risk in what you are getting with synthetic. I find it much wiser to run the lower cost oil and increase the frequency of change. No matter which oil used, the higher the heat in the diff, the faster oxidation occurs and the oil breaks downs. At 140 degrees if no trash or moisture is introduced oil will basically last a million miles. However for roughly every 20 degrees above 140 it cuts life expectancy in half. A well broke in diff under normal conditions will run around 200 degrees and a quality gear oil will last 100k using above formula. However it is not uncommon for differentials to see higher temps when worked hard (steep grades, towing, speed, shock loading, ect.) which is why manufacturers generally recommend 30k intervals normal service and 15k or less for severe service. A differential that is too small for the vehicle obviously sees more strain and thus builds more heat. So an undersized diff under normal conditions will run hotter and require more frequent changes. Other notes on heat: 300 degrees is too hot, 250-270 is normal for a new diff and gear oil should be changed at 500 miles.

In the end comparing gear oil is a useless debate that is tainted by advertisement and claims that aren’t proven, it all comes down to heat and the oil breaking down. Instead of spending $100 dollars on synthetic, spend $20 on Lucas and install a $50 temp gage on your diff. If your diff regularly sees mileage over 200f change the oil frequently, if it doesn't save your money. The flip side to this is synthetic sellers say their oil stays cooler and lasts longer. I think it is false advertisement that can't be proven by the average purchaser. If you ran dyno and the diff regularly ran above 200 it would be worth trying a high quality synthetic oil and proving their claims with a temp gauge.

Opinions on specific gear oils:

Royal Purple: In our opinion one of the worst gear oils made

Valvoline synthetic: Better than royal purple but dyno out performs

Ford synthetic: Probably Valvoline not the worst but think dyno is better

GM synthetic: Similar to ford

Toyota synthetic: Average same performance as most dyno's I think lucas is better

Mobil 1 synthetic: Better than economy dyno's and is likely comparable to Lucas or other quality dynos with additive packages

Amsoil severe duty: Better than all economy Dyno's and all synthetics on the market, but marginal over a quality dyno with additive package

Redline shockproof: Same as amsoil

The only synthetic's I would consider are Amsoil, and redline, along with some industrial synthetic's that aren't really marketed to your everyday user. But would only consider if I was trying to control a heat problem, or shock load issue generally related to doing something the differential was never designed to do in the first place.

In the end changing the oil more frequently will result in less wear and longer life in and will cost less money.


Conclusion Notes:

· ECGS RECOMENDS LUCAS DYNO 85W140 & LUCAS 80W90 FOR EXTREME COLD

· 4 Most Important Attributes to Gear Oil

o Cling Ratio

o Water separation properties

o Cushioning Factor

o Temperature Control

· Temp Reference Chart – oil change frequency

o 170 Deg - 100,000 Miles

o 200 Deg - 50,000 Miles

o 220 Deg - 25,000 Miles

o 240 Deg - 12,000 Miles

o 260 Deg - 5,000 Miles

o 260-300 Deg – 500-1000 Miles until Temp is controlled

· Differential Temp Guide

o 250-275 Degrees is Normal for new differentials breaking in, do not Tow or take long road trips for first 500 miles as this builds additional heat. 300 degrees is to hot and diff should be allowed to cool.

o Normal operating Temp for a differential adequate for vehicle in stock applications 170-220 degrees

o Normal operating Temp - Large tires, Undersized Differentials, Towing 200-250 Degrees.

· Final Notes

o Change your oil frequently your diff will thank you

o If water is ever introduced to differential change it immediately, keep in mind that a differential that is hot and then becomes cool will naturally draw in moisture, so it is not always a water crossing that causes moisture contamination, always run a vent to a dry area and insure it breathes easily.

Chase@ECGS
 
Not a synthetic oil fan period in Diffs. Over head cam and all these modern engines with super tight tolerances (meh). Good multi weight oil is hard to beat.
Good write up Chase.
Glad to see some real tech being contributed.
 
Out of curiosity, is this just based on offroad use or for specific conditions? A pretty huge percent of the racing industry has went with synthetics a long time ago, mostly because synthetics can handle higher temps or to solve other problems where dino oils don't perform. I'm not saying that you're wrong, just that many people think differently in many areas of very critical differential performance...

There's also the common wisdom that dino oils work better at low temps as they are higher viscosity, and then are completely eclipsed at higher temps because of better temperature stability of synthetics. And the fact that many old design clutch-style LSDs were never designed for the lower friction of synthetics and the clutch packs stop working properly. That's why you need friction modifiers with synthetics for clutch-type LSD use.

I'm no gear expert, I'm just puzzled by what you're saying based on the other information I've heard in many different areas.

I'll just throw that out there and run. :D
 
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Whether I've set up the gears myself or paid to have it done, I've always, always taken the extra step and done a proper break in method. 500 miles no tow/drive easy and oil change at mile 500 before getting rowdy. Always used standard 85/140.
I can't tell you how many times people have laughed in my face over that.

Thank you. :D
 
Out of curiosity, is this just based on offroad use or for specific conditions? A pretty huge percent of the racing industry has went with synthetics a long time ago, mostly because synthetics can handle higher temps or to solve other problems where dino oils don't perform. I'm not saying that you're wrong, just that many people think differently in many areas of very critical differential performance...

There's also the common wisdom that dino oils work better at low temps as they are higher viscosity, and then are completely eclipsed at higher temps because of better temperature stability of synthetics. And the fact that many old design clutch-style LSDs were never designed for the lower friction of synthetics and the clutch packs stop working properly. That's why you need friction modifiers with synthetics for clutch-type LSD use.

I'm no gear expert, I'm just puzzled by what you're saying based on the other information I've heard in many different areas.

I'll just throw that out there and run. :D

This is based across the board: offroad, daily driver, you name it. Like I originally said the gear oil debate has gone on for a long time. My comment are based purely on experience , read research, and our own internal research. I could be wrong just don't take my opinion and do whatever you want but running a cheap synthetic is waste of money and counter productive guaranteed.

To further break down your comments:
1. Just b/c the race industry is doing it does not mean its the best. Saying synthetics can handle higher temps and deal with other problems dyno does not is a broad statement that can not apply with out looking at specific criteria. I pointed out the 4 key components to gear oil, prove that synthetics beat them in these 4 elements, I just don't see it based upon experience from the syns on the market. (but I'm good at learning and am a gear nerd so will read any scientific data or research journals, but don't submit advertisements as that is what they are ads..)

2. Rest assured the synthetics that are ran in performance racing applications where the cars are worth millions of dollars and the research has been performed are not sold at Autozone. Referring back again to my original comments, synthetics available to the general consumer. And the only way I would consider running synthetic is if I was trying to control a certain problem at which point I say prove it works. Which I do believe there are certain synthetics out there that can aid in problem correction for certain criteria but that debate goes much further and is very specific to the problem you are trying to solve. Heat, shock load ect.

3. Both with mentioning racing and synthetics related to the race world is kinda like saying you bought a chevy impala. B/c Chevy won Nascar 3 years in a row so they are the best cars. Those aren't chevy cars available to the general consumer or are any of the parts or oils they use.

4. The comments on friction modifiers are backwards, technically syns should not need a friction modifier, or a dyno with additive package. I believe in both instance an actual modifier should be used regardless of what the bottle says. Modifiers allow the clutches to slip smoothly and reduce chatter. Slip easier yes. If you are not impressed with torque bias of the differential then consider cutting amount of friction modifier but then don't complain about chatter you cant have both. Modifers is also another debate that goes along with clutch material design. The answer would be dictated by the end users desires. If you run a shop and are dealing with a customers daily driver use a ford or dana made friction modifier so your customer does not complain about clutch chatter. If you have a posi in a front of mud truck and want better torque bias run dyno with additive package and don't use a friction modifier it will hook up better break loose much slower, but it will chatter.

Chase@ECGS
 
Someone really needs to do a heat transfer experiment in a lab to determine the R values for the most common fluids. I would suspect that Dino's will have a lower R value resulting in better heat transfer/dissipation to the non rotational differential components.

Sent from my SAMSUNG-SM-G890A using Tapatalk
 
Chase, thanks for providing an excellent in depth study of gear lubricants . Your experience gives you an insight few others have. Your recommendations certainly carry the weight of a professional who intelligently anaylizes conditions and years of results. The effect of temperature and water on lube life makes good common sense. Those who do not read your thread or don't believe it are missing excellent advice.
 
I just gotta ask, is it dyno oil or dino oil?
 
I don't think it matters. I think it's a esoteric term

7a4fbc2655e5010aab44a095d4e0a18d.jpg
 
Yes but Dino can also be pronounced deeno. English is a fickle language. Makes perfect sense to of used Dyno. It's trendy and catchy
 
Yes but Dino can also be pronounced deeno. English is a fickle language. Makes perfect sense to of used Dyno. It's trendy and catchy
I mean we could go with "daighneau" too, but why complicate it :confused:
 
We get asked about gear oil at least 10 times a day. Then we get asked why, which is long winded. Figured we would post here for anyone wondering. This breaks it down how, what, when, where, why....

ECGS Gear Oil Recommendation - Why We Recommend Non-Synthetic Oil

ECGS recommends Dyno (Non-Synthetic) 85w140 Lucas oil with a Ford or Dana limited slip additive for clutch style posi's. The gear oil question is an age old debate that comes down to opinion. We base our opinion on differentials we have seen. Scientifically it has been proven that that when measuring diff temps, the actual “metal objects” stay cooler using a quality dyno oil with an additive package over synthetic oils. However it has been proven that synthetic “oils” can stay cooler then dyno oil. So it depends on what temperature you measure the “metal” or the “oil” hence why both can claim they are better.

Other findings and this varies based on the actual synthetic used. Synthetics thin out quickly once hot and lose their cling ratio to the metal object, when the oil is stuck to the gear it provides a cooling factor for the metal. We also believe that dyno oil has better pressure properties, ie it provides a better cushion then synthetic for two reasons. First, it does not thin out as much and two it clings to the gear.

Another important attribute of differential oil is water separation. A gear oil that will hold its separation from water will protect the differential. It is in our experience that if you add water to a diff with Synthetic there is no clear delineation between the two. On a dyno oil there is excellent water separation properties. Water will ruin diffs as it affects its pressure properties resulting in surface wear quickly, so any oil that keeps its separation properties will outperform one that will not.

An easy not so scientific test is to install synthetic and run your diff for 30 minutes, pop cover and watch how it comes out and feel it. Most we have seen are extremely thin and act almost like water. Same test with Lucas it runs slower and will be stuck to the gear.

All synthetics cost more money than Lucas dyno oil, and I feel there is a risk in what you are getting with synthetic. I find it much wiser to run the lower cost oil and increase the frequency of change. No matter which oil used, the higher the heat in the diff, the faster oxidation occurs and the oil breaks downs. At 140 degrees if no trash or moisture is introduced oil will basically last a million miles. However for roughly every 20 degrees above 140 it cuts life expectancy in half. A well broke in diff under normal conditions will run around 200 degrees and a quality gear oil will last 100k using above formula. However it is not uncommon for differentials to see higher temps when worked hard (steep grades, towing, speed, shock loading, ect.) which is why manufacturers generally recommend 30k intervals normal service and 15k or less for severe service. A differential that is too small for the vehicle obviously sees more strain and thus builds more heat. So an undersized diff under normal conditions will run hotter and require more frequent changes. Other notes on heat: 300 degrees is too hot, 250-270 is normal for a new diff and gear oil should be changed at 500 miles.

In the end comparing gear oil is a useless debate that is tainted by advertisement and claims that aren’t proven, it all comes down to heat and the oil breaking down. Instead of spending $100 dollars on synthetic, spend $20 on Lucas and install a $50 temp gage on your diff. If your diff regularly sees mileage over 200f change the oil frequently, if it doesn't save your money. The flip side to this is synthetic sellers say their oil stays cooler and lasts longer. I think it is false advertisement that can't be proven by the average purchaser. If you ran dyno and the diff regularly ran above 200 it would be worth trying a high quality synthetic oil and proving their claims with a temp gauge.

Opinions on specific gear oils:

Royal Purple: In our opinion one of the worst gear oils made

Valvoline synthetic: Better than royal purple but dyno out performs

Ford synthetic: Probably Valvoline not the worst but think dyno is better

GM synthetic: Similar to ford

Toyota synthetic: Average same performance as most dyno's I think lucas is better

Mobil 1 synthetic: Better than economy dyno's and is likely comparable to Lucas or other quality dynos with additive packages

Amsoil severe duty: Better than all economy Dyno's and all synthetics on the market, but marginal over a quality dyno with additive package

Redline shockproof: Same as amsoil

The only synthetic's I would consider are Amsoil, and redline, along with some industrial synthetic's that aren't really marketed to your everyday user. But would only consider if I was trying to control a heat problem, or shock load issue generally related to doing something the differential was never designed to do in the first place.

In the end changing the oil more frequently will result in less wear and longer life in and will cost less money.


Conclusion Notes:

· ECGS RECOMENDS LUCAS DYNO 85W140 & LUCAS 80W90 FOR EXTREME COLD

· 4 Most Important Attributes to Gear Oil

o Cling Ratio

o Water separation properties

o Cushioning Factor

o Temperature Control

· Temp Reference Chart – oil change frequency

o 170 Deg - 100,000 Miles

o 200 Deg - 50,000 Miles

o 220 Deg - 25,000 Miles

o 240 Deg - 12,000 Miles

o 260 Deg - 5,000 Miles

o 260-300 Deg – 500-1000 Miles until Temp is controlled

· Differential Temp Guide

o 250-275 Degrees is Normal for new differentials breaking in, do not Tow or take long road trips for first 500 miles as this builds additional heat. 300 degrees is to hot and diff should be allowed to cool.

o Normal operating Temp for a differential adequate for vehicle in stock applications 170-220 degrees

o Normal operating Temp - Large tires, Undersized Differentials, Towing 200-250 Degrees.

· Final Notes

o Change your oil frequently your diff will thank you

o If water is ever introduced to differential change it immediately, keep in mind that a differential that is hot and then becomes cool will naturally draw in moisture, so it is not always a water crossing that causes moisture contamination, always run a vent to a dry area and insure it breathes easily.

Chase@ECGS

Chris Sorry for the quote but it was so you see this.

In your research how were the temperatures obtained? IR gun or a thermometer placed inside the diff and into the fluid?

Any research on the heavy stuff, 250w amsoil? I have a 5 gallon bucket so for the cost, it better work...lol. When its up and running I might send it off to blackstone labs like I do my engine oil.
 
IR gun I believe is effective for getting a general idea of what is happening for your average user wanting to check new gear break in and keep an eye on things to determine gear oil change frequency.

A thermocoupler tapped into the diff to measure oil temp for more accurate readings.

Metal temp studies was done by 3rd party engineering firm and they did not specify or I do not recall how they were able to determine metal temp vs gear oil temp at the same time.

250W I have not done or read any 3rd party research on, though I know it has become popular. The key criteria for the 250W is cushioning, it is being ran to try to control the effects of shock loading. Obviously an issue in offroad, drag racing. So the question is and the research should be done, what are the negative effects of increasing visco and is it solving a shock load problem. I believe this to be a difficult task to actually get true data and what data can be obtained. I believe one negative effect of 250W if it is to cold, it is too thick to lubricate bearings properly. I have seen on 3 occasions diffs lock up in less than 5 miles with 250W the oil was too cold and the bearings overheated. These were all essentially brand new diffs. I would consider doing a break in on a thinner oil before switching to 250W to give the bearings time to seat in.
 
I've noticed that ultra4 racers will warm up the diffs on jackstands to bring the diffs up to temp and get the oil thinned with no load prior to racing.

You noted the effecitive max temp for oil above, but Is there a minimum temp for the oil for proper lubrication?
 
and oil is not made of dinosaurs or fossils or leaves. There's millions of gallons made daily by the earth itself.. just had to say it lol. They called it fossil fuel back in the day to help them jack up price for demand because it will "run" out. My friend measures offshore rig veins and in 17 years, he's never ever even heard of one being close to empty. He actually thinks they replenish themselves. Anyways.. had to make the comment. I've always used regular oil. To many detergents in oil defeats the purpose imho.
 
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