But dammit, the product is even called "Sil-Glyde Brake Lubricant", and is openly advertised to "Stop Pad Squeal" right on the package:
Oh, it'll stop pad squeal, alright. So, will paraffin and a squirt of 3 in 1.
I, too, was hoodwinked by marketing and sales techniques. And, a persuasive parts counterman. Stupid jerk.
This is EXTREMELY discomforting, as a simple search for Sil-Glyde on Google will show that there are tons of people out there who swear by this stuff (kinda like I used to be -- yesterday).
Funny. I swear AT it.
It does work pretty well on car door hinges and slider gizmos that won't see temps above 150 F, or so.
Do you really think it is possible that the stuff got to over 300F and leaked all over my pads within the 5 minutes I test-rode it?
No, it took longer than 5 minutes for me. But you had that on longer than 5 minutes, you reported 1000 miles of use. The steel disc is porous to some degree, and lubrication molecules fit into these pores. I had to flush/soak my rotors in solvent many times to reduce the lube content. Silicone is extremely tenacious stuff and doesn't dissolve in anything. The Silglyde base carrier flowed right to the pad and into the disc, bringing silicone with it. The petro stuff either burned off or got flushed, leaving nice slippery silicone behind. (and a loudly cursing operator.) The brake disc will get over 300 F if they are working properly and with repeated heavy use. Hot metal doesn't smoke with such heat, but contaminants will. The smoke looked just like what I saw in the oven test. This occurred with my break-in stop/stress tests and Silglyde was dripping from the caliper body.
So, after flushing the disc and new pads (and using the Dow product), I took it out and did the break-in speed stop tests. Just when they really started to grab well, then they started to get worse. The heated disc brought more lube to the surface of the disc and re-lubed the new pads! But, there were no drips from the caliper this time!
I cleaned/flushed the disc again as well as the new pads, and used a belt sander to remove about a 1/6" thickness from the pad. The break in testing was better, but there was still a noticeable change after the they started to work really well. It took three or four flushings and heat cycles to get the disc reconditioned. (I didn't want to EVER lose braking force when I needed it most during some emergency stop in the future.) I then put in new pads, broke them in, and with only an SS Line upgrade, I can squall the front tire with the brake lever. Gotta squeeze hard (like when adrenaline flows), but it does it. It's kind of an old Continental on there, so traction isn't comparable to a new Metzler. But, this bike has the big Vetter IV for more weight transfer to the front, too. ...But, I digress.
Also, consider that I was careful to lube sparingly as needed and to avoid getting the lube anywhere near the braking surface.
Absolutely the right thing to do. The grease is not meant for it's lubrication properties in this application. It is simply a barrier to keep atmospheric contaminants, water, and oxygen away from corrodable metal parts. Pure silicone grease isn't creepy. Well, from a physical stand point. (It does seem unearthly.) But, Silglyde definitely is creepy, particularly when hot.
So, since I'm going to try some new organic pads, I might as well use the Dow pure silicone grease as you suggest. Is there anyplace where I can walk in and buy the stuff?
I got mine at an industrial supply distributor. I called around first.
A word or two about pads.
The sintered metal pads help remove heat away from the disc through the pads. Some thought about where this heat transfers to, is in order. The Honda caliper is not the best heat radiating component for this job. In fact, you can make a good argument for NOT putting the heat into the caliper piston and the brake fluid. For this application, high metal content pads are not the best choice. I was surprised when the stock Honda pads had more metal content than the originals I took off the bike due to contamination. I can't explain why Honda changed the friction pad composition. But, I speculate that is wasn't an engineering decision.
Cheers,
