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Brake Lines - Stainless steel

A few people have asked me to explain the difference between "DOT-approved" and non-approved stainless-steel brake lines. This explanation is pretty long, but I think it'll explain everything.
A few people have asked me to explain the difference between "DOT-approved" and non-approved stainless-steel brake lines. This explanation is pretty long, but I think it'll explain everything.



Revision as of 00:19, 2 September 2006

A few people have asked me to explain the difference between "DOT-approved" and non-approved stainless-steel brake lines. This explanation is pretty long, but I think it'll explain everything.

First, a quick explanation of what stainless-steel brake lines are:

The brake lines we're talking about are the flexible ones that connect between the hard lines (i.e., the inflexible tubing) in the car and the brake calipers on the wheels.

They've traditionally been made from rubber tubing, with steel or aluminum connectors crimped onto their ends. Nearly all passenger cars are shipped with rubber brake lines, and they hardly ever fail.

"Stainless-steel" lines are made of Teflon tubing, not rubber. Teflon has a number of advantages over rubber; the chief ones are that it doesn't expand under pressure and it doesn't deteriorate with age. It also resists high temperatures and is chemically inert, so it's compatible with all brake fluids.

However, Teflon is pretty fragile, so it has to be protected from physical damage (chafing, flying rocks, etc.). Although some manufacturers armor their Teflon hoses with Kevlar, most protect the Teflon with an external sheath of braided stainless-steel wire... So that's why armored Teflon hose is usually called "stainless-steel hose".

The ends of the hoses have to be securely attached to the brake calipers and the hard lines, so each hose is terminated by threaded hose-ends.

Those hose-end fittings can be attached to the hoses a couple of ways.

The cheap way is to crimp or swage them onto the hoses, like the fittings on rubber hoses. The more-expensive way is to use a two-piece replaceable hose end that captures a portion of the hose between an inner nipple and a concentric outer socket. These hose-ends (often referred to generically as "Aeroquip fittings" because they were invented by the Aeroquip Corporation) are used EVERYWHERE on aircraft and race cars.

Ok... So what's required for a stainless-steel brake line to be DOT-approved?

First, I should point out that there may be lines available that meet all the DOT specs, but are non-approved only because they haven't been submitted to the DOT for approval.

Manufacturers can't legally say that their lines are approved - even if they KNOW that the lines meet all the DOT specifications - without actually submitting them to the DOT.

For that reason, stainless-steel brake lines can fall into three categories:

"DOT approved" - These lines have been submitted to and approved by the US Department of Transportation.

"non-approved" - These lines don't have a DOT approval, either because they don't meet the specs or simply because they haven't been submitted for testing.

"non-conforming" - These lines are non-approved (and non- approvable) because they fail to meet the DOT specs.

Ok...

The safety standard that brake hoses must meet is called Federal Motor Vehicle Safety Standard 106; if you have a copy of the Code of Federal Regulations handy, it's in Title 49, Volume 5, Subpart B, Section 571.106.

The section that applies to hydraulic hoses is about six pages long, and it covers everything from labeling requirements to pressure and temperature testing.

One important thing to note -this'll come up later when I explain why the "best" hose assemblies can't be DOT approved- is that each of the requirements in the Standard carries the same weight; if a hose fails to meet ANY requirement, it won't be approved.

Hypothetically, therefore, a hose which met all the performance specs but was labeled in lowercase letters (the Standard requires block capitals) would fail to be approved.

Also, some of the features required by the Standard provide a certain amount of "idiot-proofing", but at the expense of absolute maximum strength or safety... It's the same sort of mandated mediocrity that forced Ferrari to replace the stock 5-point safety harnesses in US-spec F40s with those ridiculous motorized-mouse single shoulder belts.

Anyway...

Most of the "performance" specs in the Standard (i.e., burst strength, compatibility with brake fluids, tensile strength, expansion under pressure, etc.) are easily met by all halfway-decent hydraulic brake hoses, but there are a couple of tests and requirements that are particularly difficult for stainless-steel hoses to meet.

Those requirements are:

1. The manner in which the fittings must be attached to the hose.FMVSS 106 specifies that "Each hydraulic brake hose assembly shall have PERMANENTLY ATTACHED brake hose end fittings which are attached by deformation of the fitting about the hose BY CRIMPING OR SWAGING." [Emphasis added]

The idea is that, since crimped-on fittings can't be loosened, a stupid end-user won't be able to screw with and weaken them.

This is a good thing from a product-liability point of view, I guess... But it means that any hose assembly which uses the very best fittings available -like the nipple-and-cutter Aeroquip Super Gem or Earl's Speed Seal- is non-conforming and CAN'T be DOT-approved.

2. The "whip-resistance" test. This test involves mounting the hose on a flexing machine, pressurizing it to 235 psi, then running it at 800 RPM for 35 hours.

When steel-armored hoses were run through that test, it was found that the hoses tended to bend right at the junction between the hose and the hose-ends. After a while, the stainless-steel braid would start to tear, and the broken wires would cut into the inner Teflon liner, causing it to fail.

One brake-hose manufacturer fought to modify the whip test, claiming that their stainless-steel hose could easily comply with the test if only a supplemental support were used during testing to move the flexing-point away from the hose-ends.

The NHTSA ruled on the issue in August, 1996, deciding to allow manufacturers to use the supplemental support... But only on the condition that the same support was used when the hoses were installed on a real car.

FMVSS 106 was modified to include the use of the support, and the new rules went into effect in October, 1996.

"DOT-approved" stainless-steel brake hoses went on sale immediately thereafter.

So now you know what DOT approval entails. For information on why you would want (or might not want) stainless-steel brake hoses on your car, see read on...

There are three reasons to install stainless-steel brake lines:

  1. They look racy.
  2. They don't swell like rubber lines, so they can potentially firm up your brake pedal.
  3. If you're doing a lot of off-road driving, the stainless-steel braid may protect your lines from being punctured by rocks or whatever.

Here's the thing, though: Since stainless-steel lines don't bulge as they age, and since the inner Teflon lining is hidden behind the braid, there's no easy way to inspect the lines for warning signs of imminent failure.

This is no big deal on a race car, since the lines are (or should be) replaced at least once a season. On a street car, where most people are likely to let YEARS go by without even looking at their lines, it can be an issue.

Plenty of people, therefore, warn that you should use rubber lines instead of stainless steel... They'll be happy to give you anecdotal evidence of steel lines simply bursting (or, more commonly, separating from their hose-ends) catastrophically and with no warning.

I haven't seen any references to this sort of failure that mentioned whether the lines were:

  • REAL Aeroquip or Earl's hose,
  • attached properly to the CORRECT hose-ends, and
  • installed properly on the car.

I define "correct hose-ends" as Earl's Speed-Seal (the new name for Fluor-O-Seal) or Aeroquip Super Gem, and "real hose" as Earl's Speed-Flex (the new name for Fluor-O-Flex) or Aeroquip... uhh... I forget their brand name.

Anyway, Speed-Seal hose-ends work just like Earl's Swivel-Seal ends; the hose-end can swivel after assembly. The nipple/cutter assembly on these ends (and on Aeroquip Super Gem ends) was specifically developed to prevent blowoff of the hose-end... I'm still waiting to hear from anyone who has firsthand knowledge of one of these hose assemblies coming apart, and until I hear from that person, I run "real" stainless-steel lines on my car and replace them regularly.

THIS IS IMPORTANT: The lines that your performance-parts distributor will sell you are made with no-name hose from God-knows-where (probably Taiwan), and the hose-ends are just swaged-on fittings that are an invitation for disaster. I won't put these on my car, and I don't recommend that you put them on yours, either.

There are now "DOT-approved" stainless-steel lines. I have no idea what they are, but I suspect that they STILL use cheap-ass crimped-on hose ends. Until my suspicions are disproven, I won't put THEM on my car, either.

If you do decide to put stainless-steel lines on your car, you need to be aware of a few things:

  1. When you install them, you must make SURE that they can't kink, twist, or stretch under any combination of wheel droop, bump, or (for the front wheels) steer.
  2. The stainless-steel outer braid will cut through anything against which it rubs, so you have to make sure that the lines don't rub back and forth over anything important.
  3. Stainless steel lines have been known to fail when dirt gets between the outer braid and the Teflon lining... As the braid moves back and forth, the dirt abrades the Teflon and can make it rupture. If you look at stainless-steel lines on motorcycles, you'll see that many of them are encased in plastic tubing, apparently in an effort to eliminate this problem. The tubing also helps considerably with the abrasion issue mentioned above.