This tire shop in California has a good web page that talks about several different aspects of air pressure in cars and trucks.
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Here's one example:
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California passed a law in September 2010 concerning air pressure. It roughly states that: in order to reduce greenhouse emissions caused by underinflated tires, all auto shops are required to set the air pressure in any car they work on to the vehicle manufacturer's specifications (usually found on the door placard). That's all well and good, we want to decrease greenhouse emissions, but there's a problem, for easily more than half the vehicles we work on, the vehicle manufacturers specifications are either patently too low (for this area), or barely adequate. So in order to reduce greenhouse emissions caused by underinflated tires, we were required to underinflate them(!?). Fortunately, they soon realized this, and issued a clarification to the law that they would allow us to put more air in the tires if the customer requested it. We are still not allowed to go lower.
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There's a lot more, I won't quote the whole page, but I will quote this part:
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One exception to this which is very common, is for oversize tires. Since, as stated before,
weight capacity is a function of air pressure times air volume, you will often see larger truck tires primarily available in lower load ratings. A common example woud be an LT265/70R17 load range E and a LT285/70R17 in a load range D (there are E rated 285s but D they are the norm). The maximum inflation of the 265 in the E range is 80 psi and the maximum inflation of the 285 in the D is 65. However, due to the larger air volume of the 285, at maximum inflation, these two tires have the exact same weight capacity (3005), down to the pound! In this case, the tire pressure can be adjusted according to charts we have.
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As I've stated before, tire size and load capacity and air pressure are interrelated.
I say, and someone prove me wrong, that the air pressure on the sticker on the door jamb is only correct when you have THE EXACT SIZE TIRE THAT CAME WITH THE CAR WHEN IT WAS NEW.
As we have 50-65 year-old cars that came with tire sizes that we can't even find exact manufacturer size data on (tell me the specs on a 8.25 x 14 tire) and many have put wider tires on our cars than they came with, changed the profile, not to mention the difference between ancient multi-ply bias vs modern radial, the air pressure numbers on the door stickers are worthless.
The car doesn't care what the air pressure in the tire is. As long as the rolling diameter matches what the speedo / odo is calibrated for, the car doesn't care.
BUT THE TIRE CARES. An under-inflated tire is a not a happy tire.
There are probably tables somewhere that for a given tire-size and load will give you the "correct"
air pressure you should have in the tire to allow the tire to have the shape it was designed to have while rolling. Such a table might very well be tire brand / model dependent, factoring in specific construction details and rubber compound formulas.
Car companies no doubt consult tire makers (ie the tire maker chosen to supply the OEM tires when the cars are sold new) so the air pressure on the door sticker is based on that. No doubt today the air-pressure number is heavily weighted towards fuel economy, just as we know 50+ years ago it was weighted towards "ride comfort".
We shall have to respectfully disagree then.
Using relatively modern examples, and both vehicle and tire documentation to prove it, I demonstrated that in most cases, the door placard cold tire pressures are sufficient to carry the gross load (the maximum) of the car, plus a ten to twenty percent safety margin.
So when you are driving alone to work, just you in the car with your laptop or lunch bag, and half a tank of gas (you'll stop to fill up this evening after work), your tires are far far more than capable of supporting that load! Again, zero reason to increase cold tire settings, or change them up or down, unless you plus- or -minus-sized your tires, at which case a different cold pressure may apply.
On my 2010 Honda Accord, EX trim, the OE 225/55R17 size tires, at 32psi cold per Honda, support, respectively, 111% and 129% of front gross-axle and rear gross-axle weight. That is, an average of 120 percent of gross load: full gas tank, driver plus four passengers, luggage, and the family dog.
Now who carries that gross load every day? Not many folks I know, unless they do rideshare business. The point is, at 32psi, the tires on my car are
not, as you think, "under-inflated", or chosen "for a softer ride".
I'm presenting facts and figures here, science, not blowing smoke out the top of my head.
If I decide to maintain the tires in that example Accord at any pressure, higher - or lower - than what's on that door placard, that is only my
opinion and
personal preference to do so.
My car sets the load limits, not the tires.
Sure, my tires can carry, at 36psi, a much higher load than they could at 32psi -
but:....
Is the VEHICLE - in this case my Honda - rated to carry that higher load?
hmmmmm...
Makes you rethink this whole over-inflation addiction the whole country seems to have now, doesn't it.
The only, and theoretical at that, advantage for me to maintain my Accord tires at 36 or 40psi is for hyper-miling, or attempting to get the most miles out of a full tank, or on an EV, the most miles per charge.
Other than that, running pressures more than 1psi(to account for seasonal temperature swings) above the door placard pressure is simply opinion and preference.
Yes, I do know there is a big exception to this:
Converting an older car from bias to radial ply tires. And that's why finding out, or knowing, the front /rear gross axle weight is is critical when determining what cold tire pressures to run.
I get the same refutation as from you, on other automotive discussion groups and newsgroups, about "door sticker pressures being too low", and how "the max pressure on the tire is needed for max load capacity", etc, and frankly, it almost makes my blood boil. So I'll stop now, and you all can do what you want with it.
