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Thread: What coolant should I be using?

  1. #1

    What coolant should I be using?

    This was written when someone had previously asked what coolant to run after doing a timing belt and waterpump change. The person had mentioned they were thinking about running a long-life coolant similar to Dex-cool coolant in their 3.4L motor. Alot of questions arose about how each type of coolant works, the standards and how well it might work for use in Toyota vehicles. I responded with the following post. "I have used Dex-cool too and it seems like alot of people throw around alot of misinformation and trade horror stories about problems that occur when using it but here is a good article on what exactly is in it and how all the chemistry works and why certain vehicles have issues when they ran it."

    One thing you should absolutely not do is to mix them:
    http://www.baldwinfilter.com/engineer/99_2.html

    Very good reading I think (so good in fact I wanted to make sure the link can't disappear):
    "With so many different coolants out there, it's important-make that essential-to know what's safe to put in where, and when.

    Lift the hood of a new Ford vehicle and you're likely to see a yellow coolant in the overflow jug and an interesting label on it. In pictorial language it says "Do not use orange coolant; yellow coolant is okay."

    Sounds pretty straightforward, right? It isn't. Lift the hood of another Ford product (in this case, a Taurus with the pushrod V6) and you'll see that same label, but the jug contains orange coolant. Wait a minute. Something clearly is very wrong. It cautions "don't use orange," but the factory-installed coolant is orange.

    Lift the hood of a Chrysler product and you'll see orange coolant in the jug and a "special engine coolant only" warning on the cap. Isn't DexCool the special coolant, and isn't it orange? Yes to both questions, but Chrysler Group says don't use DexCool in its products. It's confusing, to say the least.

    The basic answers to what coolant to use where, and when, are pretty simple, but when you go past that, you're getting into some pretty complex territory. And you have to know what coolant you're dealing with to be sure you're doing no harm.

    Longtime MOTOR readers know that the color of the coolant dye really is meaningless. Dye should help you spot a leak, but that's about it. But with these seemingly contradictory warning labels, you really need a basic understanding of what's been happening with coolant formulations and colorings.

    You may remember that about 93% of most coolant is ethylene glycol, another few percentage points are water and/or a solvent to keep rust/corrosion inhibitors in solution and the remainder are those inhibitors. The inhibitors make a huge difference, and they're what all the arguments are about.

    Didn't we talk about all these coolants last year? You bet, and we'll probably be talking about them for years to come. Since last year, however, Honda and Toyota have moved strongly into extended-life organic acid technology (OAT) coolants. Yes, DexCools also are OATs, but these Japanese formulas are not DexCool, and the two car companies have indicated they absolutely, positively don't want DexCool-type coolants used in their vehicles.

    Nevertheless, you have to pick something to install, and to top up with, and we've learned that the systems are not necessarily forgiving of some mixtures of different coolants. There are circumstances where an unfavorable mixture can cause an increase in corrosion.

    Taking these issues a step further, this year we've seen more cases that contribute to coolant confusion. These days, it's all too easy to make a mistake.

    You have to appreciate a bit of chemistry about the various formulas. You've got to know in basic terms what's different about the different coolants-both conventional and extended-life types-and what it means when you have to pick one. Yes, that includes a bit about the dye colors.

    What's In DexCool?

    You should know that the term "orange coolant" has come to mean a DexCool-approved brand but that doesn't mean it's really true. If you make this assumption, you'd be wrong. It's what Fords warning labels could be interpreted to refer to, so that label doesn't serve to clarify things (certainly not when a Ford system contains a very different-non-DexCool, but orange-dyed-coolant). The discontinued Mercury Cougar was an exception; it did contain an orange coolant similar to DexCool.

    The "DexCool" designation means the coolant passes General Motors performance testing. Although DexCool is not a specific formula, all three brands that have the label (Texaco Havoline, Prestone Extended Life and Zerex Extended Life) are somewhat similar. In particular, they're OAT coolants, but the similarities go beyond that basic description.

    All DexCool-approved coolants to date use two organic acid rust/corrosion inhibitors, one called sebacate, the other called 2-EHA (which stands for 2-ethylhexanoic acid). These organic acids are very stable and last a long time, although they take thousands of miles to become fully effective in protecting coolant passages.

    GM recommends a DexCool change every five years or 150,000 miles, whichever comes first. Because most people drive 15,000 to 20,000 miles a year, that translates to a five-year replacement interval. As noted, the thousands of miles required to protect metal is an important trade-off for that longer life. Although like conventional coolants, OATs also contain other inhibitors, for targeted protection.

    The inhibitor 2-EHA works well in hard water and is more effective than sebacate at lower pH levels (when the coolant moves from the alkaline end toward the acid side), particularly for cast iron. Well, GM has a number of cast-iron engines. When there's a low coolant level in the coolant passages, the exposed cast iron rusts. Apparently, that rust is washed away later by flowing coolant, and is deposited in the heat exchangers. It eventually produces the rust powder problems that have been so widely observed (see MOTOR's August 2002 issue at www.motor.com). Why does the coolant level in these engines drop? The original radiator cap design was blamed for some of the issue, but there probably are a number of causes, including owner neglect and normal seepage. However, the rust powder issue is not a problem that was observed with the previously used conventional American coolant.

    The inhibitor 2-EHA poses another issue: It's a plasticizer (softens plastic), so it has been blamed for coolant passage gasket leakage. Softening (and the resulting distortion) was reported by Ford, which encountered gasket leakage problems when it tested a DexCool-type formula on its V8 engines. Ford also saw similar issues with other gasket materials. That killed the OAT coolant idea for Ford, which had used a DexCool-like coolant in the '99 Cougar V6.

    Could that inhibitor be responsible for the intake manifold coolant gasket leakage on GM 60° V6 engines? Or is there some other service issue involved? (After all, GM isn't the only one with coolant gasket leakage problems.) The experts are still working on it.

    What Preceded OATs

    Until the extended-life OATs came on the scene, there had been primarily two major coolant inhibitors for aluminum protection-silicates and phosphates-and conventional American coolants have used formulas containing both of them. Silicates are related to sand, and there were questions as to their effect on water pump seals. Some old tests seemed to suggest they were harmful, but there has been no credible evidence to support that stance on late-model designs with reputable brands of coolant. In fact, today's carbide seals are about as durable as you can get, and silicates that remain in solution seem to produce no problem anywhere. In real-world evaluations, there's no evidence of any issue, as silicate inhibitors have been used successfully for many decades in all makes of cars. Where a seal-deterioration issue surfaces, it has been attributed to core sand, from failure to clean engine blocks properly.

    Silicates protect very quickly, so if there's some mechanical breakdown in the silicate protection, it re-forms very rapidly. For example, a water pump may suffer cavitation erosion/corrosion (a high coolant/ambient temperatures issue, particularly with certain cooling system designs). That means that as the coolant passes through the pump, bubbles are produced, which then collapse with explosive force, pockmarking the internal parts of the pump. That pockmarking is erosion, the marks being exposed, unprotected metal. If the inhibitors work quickly, the damage stops after minor corrosion. If they work slowly (as with organic acid inhibitors), the pockmarked areas corrode for a longer period.

    American conventional green coolants use doses of both silicates and phosphates. Phosphates also protect aluminum quickly, but have raised concerns in hard water. OAT coolants contain no silicates and no phosphates.

    European coolants also contain no phosphates, but do contain silicates (at a somewhat lower dose than conventional American coolant) plus other inhibitors. These have been used for a long time, and although they're conventional formulas, there are enhanced versions today, as covered in the section on "Other Extended-Life Coolants."

    Japanese conventional coolants contain no silicates, but they do contain phosphates for fast-acting protection, plus other inhibitors. Extensive Japanese tests have shown phosphates to be a good corrosion inhibitor for aluminum, and particularly effective in protecting water pumps from corrosion after cavitation erosion/corrosion.

    The questions about 2-EHA were raised not only by Ford (and reportedly DaimlerChrysler) but within Japanese coolant development circles, as well. When Honda introduced its long-life coolant, it specifically excluded 2-EHA, and we can tell you there is unhappiness at Honda regarding DexCool in the new Saturn VUE with the Honda-supplied 3.5L V6. The system is being filled with DexCool because that's what s in the plant for everything else. It would not be simple to set up a separate coolant fill system for the Honda engine.

    We can't tell you how this dispute is going to play out, but you do have to make a choice when it's time to change. The engine already has been protected with DexCool (unless there's an assembly line change in the works) and it's reasonable to install that when you service that engine. However, to extend gasket life and protect the water pump impeller and chamber, it wouldn't be a terrible idea to flush the system and switch to a coolant with phosphates and/or silicates (conventional American or G-05) at this point.

    Other Extended-Life Coolants

    Ford and Chrysler Group use G-05, a low-silicate, no-phosphate formula long specified by Mercedes, even for its passenger car diesels. Once a similar formula even was made by Texaco for Saturn, with green dye and carrying a 3/36 service interval. Today, the Ford and aftermarket versions have yellow dye-or at least they're supposed to. And the Chrysler Group formula has been dyed orange. Now that we've seen Ford products with orange, it's possible that some of the stuff meant for Chrysler also is being shipped to Ford. Or perhaps it's the DexCool-like coolant used in the old Cougar, although that's doubtful. It's confusing, particularly when you see a "don't use orange" label on the coolant jug and there's orange coolant in the jug.

    What is G-05? It's called a HOAT (for hybrid organic acid technology) that today serves for extended intervals, typically 5 years/100,000 miles. Like conventional Euro coolants, it's a low-silicate, no-phosphate formula designed to pass European hard water tests. The reference to OAT in HOAT is for an organic acid inhibitor called benzoate, which actually has been used for many years in almost every American, Japanese and European conventional coolant except what we now call OAT.

    Honda and Toyota use a new extended-life OAT coolant-made with sebacate as the only organic acid-no 2-EHA. Sebacate isn't quite as effective in combating corrosion at lower pH levels, but because that's more of a cast-iron issue, it apparently didn't concern the Japanese. Both Honda and Toyota do continue to avoid silicates, but add a dose of phosphates to provide fast-acting aluminum protection, particularly to recoat the water pump after cavitation erosion/corrosion.
    - Jamie<br /><br />1996 SR5 4Runner 4X4 Auto, Deckplate Mod,&nbsp; Hayden Tranny Cooler,&nbsp; Amsoil Air Filter, OME 881/906 N86C/N91SC Lift - SOLD, but still miss it!<br /><br />2005 Silverado 2500HD Duramax Diesel 4WD

  2. #2

    Re: What coolant should I be using?

    What to Use

    We used to say that maintaining the coolant level was more important than which type of coolant to use. But there's new evidence that we've been too cavalier in that respect. Sure, for small top-ups or in an emergency situation, it doesn't matter-use what you have. However, there are possible problems with extreme mixtures. An example cited by one coolant chemist: A somewhat diluted mix, perhaps 50% to 60% water, with the remainder (from top-ups) a 50-50 combination of an OAT and a conventional American coolant or a G-05. A remaining inhibitor (borate) could attack aluminum if the silicates are depleted. This becomes more of an issue when a part is being changed, and that new part has no protection against cavitation erosion/corrosion.

    Top up with DexCool in GM and VW/Audi vehicles, and '98 Chrysler L/H cars or the '99 Mercury Cougar, if you get one with the original coolant or DexCool. Top up everything else with your second coolant-G-05 or conventional American.

    Replacement Parts

    Original equipment coolants are validated for factory replacement parts. One of the issues that may arise is the use of an aftermarket replacement radiator or heater core made of copper-brass with lead solder. We have in previous articles pointed out that today's coolant inhibitor packages contain a small amount of copper-brass protection, but may provide little protection if a radiator is made with high-lead solder. Results of industry standard tests of the new Toyota extended-life coolant now show a substantial weight loss (corrosion), both in a 50-50 mix aud in a 33% coolant mixture (solder corrosion is much greater in this more diluted solution).

    If you have to change a radiator or heater core, use aluminum. Or, if it's an older car and the owner wants the lowest-cost radiator, you might procure a soldered-together copper-brass unit. Conventional American coolant should provide better protection against solder corrosion, which can result in radiator tube restrictions and leaks. But no coolant provides perfect protection.

    If you're replacing aluminum parts on an engine, such as a water pump or even a new cylinder head, remember that part's coolant passages have not been protected. In those cases you should perform a complete coolant exchange.

    Complete Coolant Service Choices

    Chances are you'll standardize on two coolants to cover most situations. One will be a DexCool formula; the other could be a G-05 extended-life or a conventional American (green or gold). A better approach would be to have all three coolants. When it comes to what to use and when, here are recommended or suggested strategies:

    GM and VW/Audi vehicles. For these applications, use DexCool because that's in accordance with factory coolant formula recommendations. Sure, the vehicle probably will be out of warranty by the time you get it and have to make a decision. But the OE recommendation is the safe way to go, and because you can easily obtain a DexCool, it's a no-brainer.

    Ford and Chrysler vehicles. Here again, it's a no-brainer. Both companies have identified problems with DexCool, so use something else. G-05 is available in the aftermarket, so that's your choice for extended life on vehicles from those makers. However, if your second coolant is conventional American, that's fine. The recommended service interval is shorter, but if the coolant level is maintained and the motorist is not a high-mileage driver, it can serve beyond two years. In fact, Ford long recommended four-year intervals with conventional American coolant.

    Japanese vehicles. This is a problem area, because Japanese-spec coolants have never been sold in the U.S. aftermarket and history says conventional American coolants work well in these vehicles. Toyota research indicates the new extended-life coolant contains phosphates to protect the water pump, and DexCool contains no phosphate. Honda has said it will not use a coolant with 2-EHA. So both carmakers exclude DexCool. Best solution with aftermarket coolants: Do a complete coolant exchange, and replace the Japanese OE coolant-conventional or extended-life-with conventional American or G-05.

    Coolant Exchange

    Never before has the capability to do a complete coolant exchange been more important. Even if you're changing a DexCool system and putting in new DexCool, you want to get the system full, really full. A low coolant level is bad news, particularly with cast-iron engines. Even if the engine is aluminum, a low coolant level could mean engine-damaging temperatures and surely cause poor heater performance in winter. With today's smaller coolant capacities, the system doesn't have to be low by much for problems to surface.

    If you're making a change in coolant type, such as any Japanese coolant to American green or G-05, you should get at least 90% of the old stuff out. The only way to do this and ensure a full system when you're done is with coolant exchange equipment.

    A complete coolant exchange can be done manually, if you have a lot of time and infinite patience, plus a willingness to lose money on the job. In addition to the coolant exchangers already on the market, we've been seeing new ones designed to handle two or more coolants. They're a recognition of the many different coolants currently in use.

    Whatever the coolant, remember the other half of the mixture is water. In hard water areas, always use demineralized water. Some coolant formulas are more tolerant of hard water than others, but that doesn't mean it's good for them."

    http://www.findarticles.com/p/articl...08/ai_n9453107
    http://gates.com/downloads/download_...older=brochure
    - Jamie<br /><br />1996 SR5 4Runner 4X4 Auto, Deckplate Mod,&nbsp; Hayden Tranny Cooler,&nbsp; Amsoil Air Filter, OME 881/906 N86C/N91SC Lift - SOLD, but still miss it!<br /><br />2005 Silverado 2500HD Duramax Diesel 4WD

  3. #3

    Re: What coolant should I be using?

    More info on the subject:

    "Strictly looking at the heat transfer coefficient, straight water is the way to go. HOWEVER... straight water has its problems, notably a lack of certain additives that prevent cavitation of the water pump at high speeds; corrosion of the various metal bits present in all engine cooling systems; surfactants to lower the surface tension of the coolant (allowing it to "wet" the surfaces of the coolant passages better); anti-foaming agents to keep the surfactants from making big bubbles; and freeze point and boiling points that are closer together than a mix of coolant and water.. All these are present in antifreeze/coolant. The surfactants and anti-foaming agents are present in Redline Water Wetter. Water Wetter has limited to no benefit in a system using a commercial coolant -- it's simply adding more of something already present in sufficient quantity.

    There are two types of base coolant stock available right now: Ethylene glycol (EG) and propylene glycol (PG). Currently, no engine manufacturers selling product in the US recommend PG (sold by Arco as Sierra brand coolant), most caution against it (check your owner's guide). PG has a higher boiling point than EG (straight), but has a lower heat-transfer coefficient. EG coolants also come in several flavors, depending on the additive package (more below). BTW, PG isn't truly non-toxic. It's LESS toxic than EG, but PG coolant contains various and sundry additives that aren't really good for you. Basically, the less-toxic claim only applies if you pour the stuff straight out of the bottle and onto the ground. Don't bother with it. And treat *any* used coolant as low-level hazmat. Small amounts can be disposed of in sanitary sewer systems, but you're better off making nice with the operator of the neighborhood quickie lube place, who will be able to take it off your hands and get it into the recycling stream, sometimes for a nominal fee.

    The green-dyed EG "conventional" coolant we all know and love has an additive package based around a silicate (and sometimes also phosphate) based anti-corrosion additive. It's well-established and does a good job. It can go 5 years/50K miles without worry.

    A few years ago, someone thought a long-life coolant (original plan: life of vehicle) would be a Good Thing. This lead to Organic Acid Technology coolant (OAT), which is marketed as "DexCool" by GM and has been factory-fill in their products (except C4 Corvette -- not sure about C5 Corvette) since 1995. It's the orange or orangy-red stuff. Someone along the line decided the word "acid" was a Bad Thing to try to sell, so OAT was recursively changed to Organic Additive Technology. It can go 5 years/100K or 150K miles -- provided it's not mixed with other coolant. OAT has less cavitation resistance than silicate-based coolant, and can attack certain sealing materials, so it's not a good idea to convert a green-coolant car over to OAT unless the manufacturer says it's okay. OAT also has a tendency to stain translucent plastics in things like overflow bottles and pressurized de-gas bottles with a funky brown crud. Oh, and OAT from one manufacturer isn't necessarily compatible with OAT from a different manufacturer. Texaco is GM's OEM supplier and is licensed to use GM's "DexCool" trademark on their aftermarket packaging. I'm not aware of any other company being licensed to do so.

    Many European automakers use a hybrid of OAT -- HOAT (Hybrid Organic Additive Technology -- clever, huh?), which is the OAT package with a small amount of silicates added to increase the cavitation resistance and make it less aggressive against those seals and gaskets. This is often pale yellow in color. DaimlerChrysler is using it in several car lines now, too, notably the LH sedans and the new minivans and PT Cruiser. This stuff seems to offer pretty much the best of both worlds -- it's not quite as long-lived as straight OAT, but it is much better behaved in operation than OAT, much like conventional coolant. It is now sold by Valvoline under the Zerex Glysantin G-05 label.

    Note that these three different additive packages are not really cross-compatible. No, they won't eat the insides of your radiator if you mix a little of one in with another in a pinch, but you'll be better to get the system flushed out and a fresh mix of 50/50 whatever your car needs put back into it. In my own cars, I run a 50/50 EG/W coolant mix. I happen to own cars that take conventional coolant, but if I owned a car that came with OAT or HOAT from the factory, I'd likely stay with it. The anti-corrosion additives, in particular, leave residues on the walls of the various coolant passages (that's how they work -- the residues coat the base metal and prevent corrosion), and it's tricky to convert an engine that's been run with one style of package to use another package and get the full benefit. Switching from conventional to OAT, for instance, requires a mild acid flush of the cooling system after removal of the conventional coolant and before pouring in the OAT if the long-life corrosion benefits of the OAT coolant is to be realized. Just pouring the OAT in after draining the conventional won't gain the full measure of added coolant life the OAT marketers (notably Texaco) like to use as selling points. [Note from Texaco regarding rumored incompatibilities:] "We have seen the statement many times that "On '93 and older GM models, use of this antifreeze is discouraged because its chemical ingredients can interact with the copper-soldered joints inside the radiator." It was even in Motor Trend recently, which has spread the rumors further. The statement is not true. Havoline Extended Life Antifreeze DEX-COOL can be used in any car including 93 and earlier model GM cars without any problems.

    It is true that some older GM cars used a high lead solder in copper brass radiators where their newer cars are all aluminum. However, Havoline Extended Life Antifreeze DEX-COOL protects the high lead solder very well, there is no detrimental interaction with the solder or radiator, and there is no need to be concerned. Indeed, although GM decided to be conservative in not recommending DEX-COOL for all older cars, Texaco has recommended Havoline DEX-COOL for ALL cars, and stands behind the product in ALL cars. "

    [Stephen Goldberger] It is claimed by the manufacturer to leave a thinner inhibitor layer on the metal, resulting in improved heat transfer, and it is claimed to be less abrasive to the water pump seals. The inhibitor in "DexCool" is a non-silicate formulation, more along the lines of the European sebacic acid practice, but it is not the same. The 100,000 mile or 5-year recommended change interval is only true for vehicles which had "DexCool" as original fill; otherwise, it is recommended that the original factory change interval be adhered to."

    http://www.volvoclub.org.uk/faq/Fuel_LubricantData.html
    - Jamie<br /><br />1996 SR5 4Runner 4X4 Auto, Deckplate Mod,&nbsp; Hayden Tranny Cooler,&nbsp; Amsoil Air Filter, OME 881/906 N86C/N91SC Lift - SOLD, but still miss it!<br /><br />2005 Silverado 2500HD Duramax Diesel 4WD

  4. #4

    Re: What coolant should I be using?

    Yet another set of good articles:

    http://www.motor.com/MAGAZINE/Pdf/082002_04.pdf

    http://findarticles.com/p/articles/m...5/ai_n15731741

    http://www.aa1car.com/library/2004/cm120450.htm

    I know, info overload but it is better to have all the facts to make good decisions with.
    - Jamie<br /><br />1996 SR5 4Runner 4X4 Auto, Deckplate Mod,&nbsp; Hayden Tranny Cooler,&nbsp; Amsoil Air Filter, OME 881/906 N86C/N91SC Lift - SOLD, but still miss it!<br /><br />2005 Silverado 2500HD Duramax Diesel 4WD

  5. #5

    Re: What coolant should I be using?

    I'll try to sum up all the articles thus far and what I am using.

    If given the choice it seems like the the best is actually the Toyota pink which is Toyota's long life coolant (uses the best of everything.....no silicate, some phosphate to stop water pump cavitation issues, and uses OAT technology for long life similar to Dex-cool). The Honda deep green and Toyota red are also good choices but are just not as long lasting (because they are only phosphate based, no OAT so no long life), followed by the G-05 hybrid (or HOAT, some silicate, no phosphate and OAT for long life) and finally the good old fashioned fuorescent green stuff (either low or high silicate formulas are available). Dex-cool (only has OAT for long life and can have WP cavitation issues depending on the design of the system.....I am not sure if this is an issue with Toyota engines or not) can be used in some cases as well as long as you understand what you are dealing with. The biggest point is also to change the coolant often....long life is a misnomer because all coolants will have problems over time (yep, even the deified Toyota red stuff, although the pink stuff goes a long way towards perfection). You can also shop for the best deal on coolant between Toyota red and the Honda deep green (Type II) coolant because other than the color, they are exactly the same chemistry (although Honda sells theirs premixed 50/50 while the Toyota red needs to be mixed with water.....up here anyway). Also, if you do use either of these high phosphate based coolants (Toyota red or pink and Honda deep green) it is most important to use good water (do not use hard water!!!) or the phosphates can drop out of solution and rust your system. That is exactly what happened to mine when I had my fisaco with the Toyota dealer, so instead pay a few bucks for a gallon or two of demineralized, deionized water to fill with. If you are going mix with regular tap water (from a well or have hard city water) then you are best off using G-05, Dex-cool or the good old green stuff (silicates will not lose much efficacy, unlike phosphates, when mixed with hard water).

    I am now using the Toyota pink in my 4Runner (cost about $20 CDN per gallon up here in unmixed form) and the Honda deep green in my Civic (it is a very cool color of green, almost a blue green). Hopefully people will find this thread helpful in understanding coolants and give your Toyota truck the long maintenance-free life it deserves.
    - Jamie<br /><br />1996 SR5 4Runner 4X4 Auto, Deckplate Mod,&nbsp; Hayden Tranny Cooler,&nbsp; Amsoil Air Filter, OME 881/906 N86C/N91SC Lift - SOLD, but still miss it!<br /><br />2005 Silverado 2500HD Duramax Diesel 4WD

  6. #6

    Re: What coolant should I be using?

    good post again, Jamie.

    I use the toyota pink as well... it seems to be doing a much better job than the generic green i was using
    -Lee
    2013 BMW X6 50i

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