Or maybe I wasn't so far off the mark?
This is exactly wrong. Glycol-based fluids absorb water from the air, since the brake system is not completely sealed. The reservoir has a breather. This water then causes corrosion. Silicone-based fluids do not absorb water and will remain clear for easily 10 years.
Provided no water is present already or gets in during the ten years. If it is there or gets in it will be free, not bound into the fluid and will settle in low point ansdcause corrosion - been puzzleing how does it get in, I can imagine hydroscopic DOT3, 4 or 5.1 absorbing water in top of the the reservoir, water or condenstion in the cylinders working past the seals? that could affect DOT5 silicone as well as normal stuff.
Silicone Brake Fluid (DOT 5)
Silicone based DOT 5 was originally introduced to give higher temperature performance over glycol
DOT 4. Silicone fluid also has other advantages, it does not damage paintwork and it does not absorb
water. However, silicone fluid is a poor lubricant and does not lubricate ABS pumps as well as PAG fluids.
It is also more compressible than PAG fluids, which can result in a sluggish or spongy pedal. It therefore
requires special design considerations in baking systems. Further, because it does not absorb water, any
water remains as globules, which can pool in low spots in the system and cause corrosion. This water can
vaporise when heated under heavy braking giving a disastrous effect on braking efficiency.
DOT5 fluids are not recommended for motor sport applications
Fluid is not compressible. Not ever a little.
Fluid is closely spaced molecules rather than the widely spaced molecules in a gas but it can still be compressed, as can solids to some extent, but yes neither is "very" compressiable.
It seems though that that the issue with silicon based brake fluids in the molecular make up actually allows air to be retained in a suspension, other sources on the net suggest that silicone based brake fluids can have siginificant mounts of disolved air contained in the fluid which at high temps can have adverse affects. I don't see the latter being an issue on a LC with drums but with the large volumes and displacements in our systems perhaps the first is what leads to people finding a different feel with silicone bases fluids?
From this site
StopTech : Balanced Brake Upgrades
So why is silicone-based DOT 5 fluid more compressible than other fluids?
On their own, silicone-based DOT 5 fluids are entirely different animals than DOT 3 and DOT 4 fluids. In addition to having characteristically higher dry and wet boiling points, they also tend to have much, much lower viscosities. In other words, they flow more easily relative to temperature.
One side effect of this chemistry is that there is more “room” for air to fit in-between the individual molecules of brake fluid than in DOT 3 or DOT 4 fluids. Note that we are not talking about big bubbles of air here which are visible to the naked eye, but rather microscopic amounts of air which are finely dispersed (entrained) in the brake fluid matrix.
Now, all fluids have a certain amount of compressibility to start with, but adding even the smallest amount of air into the solution can dramatically increase the amount of elasticity in the system. In the case of silicone-based fluids, air is quite happy to take up residence between the brake fluid molecules, and as a result the fluid compressibility goes down. This is felt at your foot like stepping on a big spring. As you can imagine, more air = more spring.
And this one
Brake Fluid Explained QuadrigaMotorSports.com™
Air Solubility - It has been reported that dimethyl polysiloxane fluid, which is a major component of silicon based low water tolerant type brake fluids (SAE J1705), can typically contain dissolved air at a level of 16% ± 3% by volume at standard temperature and pressure. This compares with a typical level of 5% ± 2% by volume of dissolved air for glycol ether based SAE J1703 type fluids. An increase in brake pedal travel may be experienced under severe operating conditions, especially at higher altitudes and high temperature conditions.
The term “
dissolved air” (air absorbed from the atmosphere) should not be confused with the term “
entrapped” or “
free air” since their effects on brake system performance can be entirely different. Air that has been absorbed from the atmosphere does not result in an increase in fluid or system volume, whereas entrapped air or free air does occupy system volume and can be easily compressed when force is applied to the system.
5
A "modern ABS vehicle with brake assist" has exactly the same parts as a 40 yo disk brake vehicle and behaves exactly the same until the assist or ABS is activated by it's controller.
Ha Ha - I can't disagree the parts are similar, I know what point your trying to make but a there are differences - perhaps the boosters have more mechanical advantage, the pipes are smaller, the flexiables less expandable , the calipers more efficent...... no 40 year old system will match a 2008 brake system that just has the ABS fuse pulled. See extract above from Miller Oils.
My interest is mostly because DOT3 is rare in the UK and DOT4 is the norm but DOT5.1 seems to be overtaking DOT4 on the shelves. Everything suggest DOT4 is OK for me and thats what I think I am going to use but I still don't know if there is any specific difference or compatability issues between DOT4 old style and DOT4 synthetic or would I be better with DOT5.1?
