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Check Brake fluid levels
Locate your brake
fluid resevoir. It should look similar to the picture. The recommended level is
usually at the seam but should be indicated on the side. Note if the level is
at the seam it is hard to see so you might try lightly rocking the resevoir to
move the fluid inside.
Make sure that the
fluid level is at the required level and top up with the correct fluid as necessary.
Note if your fluid is low then you might have a leak somewhere and it must be
checked. Check you levels at regular intervals to catch any such incident immediately.
Brake Fluid Types
Modern road and race car brake fluids are primarily Polyalkylene Glycol Ether,
or just glycol for short. All modern glycols should carry a DOT 3 or DOT 4 rating.
DOT 5 is for silicone-based fluids. To meet DOT approval, the fluid must meet
the following boiling point specifications:
|
DOT
2* |
DOT
3 |
DOT
4 |
DOT
5 |
| Dry
Boiling point, deg F (minimum)
|
374
|
401
|
446
|
500
|
| Wet
boiling point, deg F (minimum)
|
|
284
|
311
|
356
|
*DOT 2 specifications
are obsolete.
NOTE: If you have brake fluid sitting around that's DOT 2, SAE J1703, SAE
70R3, or SAE 70R1 (for drum brakes only), toss it. These old fluids may not be
compatible with the sealing materials in modern brake systems, and besides, they're
probably full of water from sitting on the shelf all these years.
The reason we like brake fluid not to boil is simple: Brake fluid is subject to
high temperatures in the brake calipers, so when it boils, its chemistry changes
permanently and it liberates small bubbles of gas. These bubbles collect and become
trapped in the system. Since gasses are compressible, we now have a soft, or spongy
brake pedal.
Besides not boiling, brake fluid needs to have some other specific qualities:
• Musn't freeze or thicken at cold temperatures.
• Must not compress.
• Must flow freely thru rather small passages.
• Must not corrode or react with materials in the brake system.
• Provide lubrication to the moving parts of the brake system.
• Its properties must remain stable for extended periods.
• Compatible with other glycol fluid chemistries.
• Cannot decompose or form gum or sludge in the system.
That's quite a lot to ask of a fluid, no? Most of the fluids I can easily bring
to mind; water, oil, anti-freeze, good single-malt Scotch, each possess only a
few of the qualities listed above.
Glycol based fluids are hygroscopic, meaning they absorb water. Over time, water
is absorbed and the fluid's boiling point drops. A typical glycol DOT 4 fluid
that starts life at 450F dry boiling fresh from the can will degrade to 300F at
12 months by just picking up 3% of its weight in water. By 24 months its likely
to be well below 300F at 5% water. In modern brake systems, most of the water
absorption occurs in the plastic reservoir on the master cylinder. Poly-based
plastics are slightly water permeable, so even brake fluid packaged in plastic
bottles is subject to water absorption. Metal cans are superior, Ford Heavy Duty
DOT 3 ("Preferred by Racers Everywhere...") is packaged in metal, as is Castrol
SRF. If you're buying fluid in plastic, try to find a date code on the bottle,
get the most recent batch if you can decode the numerical mess.
Racing brake fluids with very high dry boiling points, say, above 500F out of
the can, tend to degrade more quickly then more mundane fluids. A 400F dry BP
DOT 3 fluid will drop to about 325F wet BP with 2% water by weight. A 500F dry
BP fluid will also be at 325F wet BP with just 2% water. Racers bleed/flush their
brake fluid pretty frequently, at least every race, sometimes between heats, so
they're not too concerned with wet boiling point. If you decide to run a high
zoot racing fluid in your street car, be prepared to flush it more often to maintain
a firm pedal. ( Contrary to popular opinion, the brake pedal cannot be made firm
by smearing it with Prolong. )
Silicone brake fluids
Silicone brake fluids are not hygroscopic, and tend to retain their dry boiling
points for very long periods of time. For this reason, silicones are favored by
owners and restorers of classic and antique cars, as there is minimal danger that
seldom-used and possibly irreplaceable brake components will be lost to corrosion.
Silicone
Silicone will cause natural rubber to swell, even when it's compounded with synthetics.
The seals in modern brake systems are no longer 100% natural rubber, but blends
of natural rubber and synthetics like nitrile. Glycol fluids will also tend to
swell blended rubber seals, but to a much smaller degree then silicone. Swollen
seals may leak, or cause caliper pistons to bind, resulting in brake drag.
Silicone has several other properties that make it less then desirable for street
or track use. When forced thru small orifices under high pressure, like the solenoid
valves in an antilock brake system, it tends to foam, generating bubbles. Bubbles
in brake fluid make for spongy brakes. Silicone also tends to become slightly
compressible at temperatures near its boiling point, which makes it generally
inappropriate for racing.
To get the maximum benefit from silicone, the entire brake system MUST be flushed
of old glycol fluid. A brake system cannot be completely flushed using the bleeder
fittings, as they are purposely at spots in the system to allow air to be bled,
you simply can't get all the old fluid out by bleeding. The best way to completely
flush a brake system is to dismantle and overhaul it, cleaning everything with
alcohol, and then coating all the parts with the new fluid as they are re-assembled.
Going to this much hassle just doesn't justify changing to silicone, IMHO.
WARNING: do not clean brake system components with petroleum solvents as
they will contaminate brake fluid. Do not lubricate brake system components with
petroleum greases or oil, use fresh, clean brake fluid as an assembly lubricant.
As for the ££££ issue, why not just flush the brake fluid
yearly? A quart of Castrol GT-LMA DOT 4 will set you back about 6 quid. Buy a
one-man brake bleeder kit while you're at the auto parts store. The actual flushing
operation should take about an hour, even for the un-initiated. This is relatively
cheap insurance to guarantee the health of such a critical component on your automobile.
You'd be surprised by the number of 10 year old cars on the road running the same
brake fluid that the factory put in.
BTW, I recently ran across a distributor for ATe Super Blue Racing brake fluid,
hadn't seen this stuff for quite some time. (ATe supplies OEM brake components
to Ford.) Its DOT 4, 536F dry boiling, packed in metal cans, and comes in 2 colors,
blue and amber. This way, each time you bleed, you use a different color, so when
the fluid changes color at a particular caliper, you're done.
Thanks to the "Brake Handbook" by Fred Puhn, HPBooks, ISBN: 0-89586-232-8
I am now going home and will throughly investigate the long term stability and
lubricating properties of a good, single-malt Scotch. I suspect, that in sufficient
quantities, its 'stopping power' is formidable.
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