TheOriginalEasyrider
Member
I hope this doesn't come off as abrasive but I've had mixed results when posting on various forums. There are a few VERY good Harley wrenches on here and I'm hoping one or more of them chime in. What I need is the feedback and advice of someone who knows a lot more about TC softtail brake systems than I do. If that's not you and you'd like to offer your opinions please so-state that in your preface. Also, I am not all that interested in red herring thoughts. What I'm encountering is most likely something fairly simple and in all likelihood someone with a deeper understanding of this stuff will quickly set me on the path to success.
The project was to look into what appears to be a dragging rear brake issue although the wheel does turn freely. There is just zero (less than .0008", which is the smallest feeler gauge I have) clearance between the pad and the rotor).
Flushed the brake fluid and installed a speed bleeder to make that chore easier moving forward.
See attached picture. As you can see, the brake pad is right up against the rotor even though the bike has been sitting for a couple of days. The brake pad(s) are not compressing the rotor... just up snug next to it. This is a two piston oem caliper.
When I removed the bleeder, zero brake fluid came out. This tells me that there is no "residual" pressure coming from the master cylinder or the brake line. That whole "residual pressure" opinion is a fairy tale I see posted often. There is no such thing as "residual pressure" in any properly operating Harley brake system that I am aware of. Red herring #1, right?
It also tells me that the supposed design of the piston seals is not "sucking" the pistons back in to the bore according to popular folklore. This design claim always struck me as sketchy and is probably red herring #2.
I'm not even sure this (pads snugged up to the rotor) is a problem per se. HD brakes are not the greatest and this two piston design was obviously done on the cheap. I'm only looking into this because this is my third set of pads in only 22k miles. I typically get twice that mileage on a set of pads. First two were OEM. Currently has EBC sintered pads installed. Some brake dust is evident but nothing compared to what I was getting with the oem pads. The idiots at the stealership claimed that the brakes were wearing out because I was braking incorrectly. Anything to avoid doing warranty repair on clearly defective or improperly installed parts right?
I also had an issue where the rear brake was pretty anemic. The brake fluid looked ok... a little brown but not concerningly so. Never been flushed. Just flushing the fluid gave me a MUCH firmer pedal. The rear brake does stop a LOT better now.
I'm sure the brake slider pin and clip has never been replaced although the service manual says to do this. Reasonably confident that the caliper pistons have never been cleaned which is what you get when you pay someone else to do the work for you.
Since the bike stops pretty well now and the pads won't need to be replaced until I'm probably long in the ground I will probably not be tearing into this for a while. But I would value knowledgeable opinions so I can start planning my next move. I probably have one more season left on the rear tire and when I have it changed I am going to put on a much better aftermarket rotor.
Fact-based opinions on what sort of rotor (floating or not) and best vendor/model/value would be welcome. I don't race this thing or brake hard so I just need a much better rotor, not the best rotor on the planet. There's no money tree growing out back right?
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MORE IMPORTANT AND NOW PRESSING ISSUE: So while I was in there I figured I might as well flush the front brake fluid too. Note to myself: never try to fix anything that isn't broken.
Removed the bleeder and was surprised that it drained every drop of brake fluid from the system! I suppose that's due to gravity but when I removed the rear bleeder not a drop came out.
Installed the speed bleeder and was never able to get any lever pressure. My bike supposedly takes the same bleeder part number in both calipers. After screwing with this for a half hour I re-installed the oem bleeder and had a VERY difficult time getting any pressure on the lever.
So any thoughts on why this was such a trial would be welcome. Yes, I kept the master cylinder full and didn't let any air in from the bleeder end. No, I didn't try to reverse bleed the line figuring that gravity might not be on my side again. No MyTvac in play although I have never needed one in the past.
A LOT of air burping up and out of the master cylinder with the bleeder closed just working the lever. After a LOT of work I finally got my brake back but nowhere near what it was prior to doing this "repair".
Here's where I am: Brake lever has 1 1/2" throw from disengaged to pads locking against the rotor. Used to be around half that much travel.
The brake is not "soft". I can hold the lever in tightly and it stays right there. There does not seem to be any air in the line.
Used to be you could see a significant gap between the pads and the rotor when sitting idle. Now there appears to be very little gap. This seems counter-intuitive to me. If anything, if the pads are right up against the rotor it should take less lever to fully lock the brake right?
As soon as I compress the brake lever the pad starts moving. Again this seems counter intuitive to me. If the pad is closer to the rotor than it was before and if the pad starts moving as soon as you actuate the lever why does it take almost the full throw of the lever to the grip to completely lock up the rotor?
My dimwit brain would assume this problem is being caused by brake pads that are worn down but they are fine. Like new, really. Plus, the front brake worked perfect prior to me monkeying with it.
So I'm feeling pretty stupid here and once again, I am clearly not a gifted mechanic otherwise I wouldn't need help with this pretty primitive design brake system. I'm hoping some really smart fellow will say "look dummy... you forgot to do x,y,z."
Thanks in advance.
The project was to look into what appears to be a dragging rear brake issue although the wheel does turn freely. There is just zero (less than .0008", which is the smallest feeler gauge I have) clearance between the pad and the rotor).
Flushed the brake fluid and installed a speed bleeder to make that chore easier moving forward.
See attached picture. As you can see, the brake pad is right up against the rotor even though the bike has been sitting for a couple of days. The brake pad(s) are not compressing the rotor... just up snug next to it. This is a two piston oem caliper.
When I removed the bleeder, zero brake fluid came out. This tells me that there is no "residual" pressure coming from the master cylinder or the brake line. That whole "residual pressure" opinion is a fairy tale I see posted often. There is no such thing as "residual pressure" in any properly operating Harley brake system that I am aware of. Red herring #1, right?
It also tells me that the supposed design of the piston seals is not "sucking" the pistons back in to the bore according to popular folklore. This design claim always struck me as sketchy and is probably red herring #2.
I'm not even sure this (pads snugged up to the rotor) is a problem per se. HD brakes are not the greatest and this two piston design was obviously done on the cheap. I'm only looking into this because this is my third set of pads in only 22k miles. I typically get twice that mileage on a set of pads. First two were OEM. Currently has EBC sintered pads installed. Some brake dust is evident but nothing compared to what I was getting with the oem pads. The idiots at the stealership claimed that the brakes were wearing out because I was braking incorrectly. Anything to avoid doing warranty repair on clearly defective or improperly installed parts right?
I also had an issue where the rear brake was pretty anemic. The brake fluid looked ok... a little brown but not concerningly so. Never been flushed. Just flushing the fluid gave me a MUCH firmer pedal. The rear brake does stop a LOT better now.
I'm sure the brake slider pin and clip has never been replaced although the service manual says to do this. Reasonably confident that the caliper pistons have never been cleaned which is what you get when you pay someone else to do the work for you.
Since the bike stops pretty well now and the pads won't need to be replaced until I'm probably long in the ground I will probably not be tearing into this for a while. But I would value knowledgeable opinions so I can start planning my next move. I probably have one more season left on the rear tire and when I have it changed I am going to put on a much better aftermarket rotor.
Fact-based opinions on what sort of rotor (floating or not) and best vendor/model/value would be welcome. I don't race this thing or brake hard so I just need a much better rotor, not the best rotor on the planet. There's no money tree growing out back right?
*****************************************
MORE IMPORTANT AND NOW PRESSING ISSUE: So while I was in there I figured I might as well flush the front brake fluid too. Note to myself: never try to fix anything that isn't broken.
Removed the bleeder and was surprised that it drained every drop of brake fluid from the system! I suppose that's due to gravity but when I removed the rear bleeder not a drop came out.
Installed the speed bleeder and was never able to get any lever pressure. My bike supposedly takes the same bleeder part number in both calipers. After screwing with this for a half hour I re-installed the oem bleeder and had a VERY difficult time getting any pressure on the lever.
So any thoughts on why this was such a trial would be welcome. Yes, I kept the master cylinder full and didn't let any air in from the bleeder end. No, I didn't try to reverse bleed the line figuring that gravity might not be on my side again. No MyTvac in play although I have never needed one in the past.
A LOT of air burping up and out of the master cylinder with the bleeder closed just working the lever. After a LOT of work I finally got my brake back but nowhere near what it was prior to doing this "repair".
Here's where I am: Brake lever has 1 1/2" throw from disengaged to pads locking against the rotor. Used to be around half that much travel.
The brake is not "soft". I can hold the lever in tightly and it stays right there. There does not seem to be any air in the line.
Used to be you could see a significant gap between the pads and the rotor when sitting idle. Now there appears to be very little gap. This seems counter-intuitive to me. If anything, if the pads are right up against the rotor it should take less lever to fully lock the brake right?
As soon as I compress the brake lever the pad starts moving. Again this seems counter intuitive to me. If the pad is closer to the rotor than it was before and if the pad starts moving as soon as you actuate the lever why does it take almost the full throw of the lever to the grip to completely lock up the rotor?
My dimwit brain would assume this problem is being caused by brake pads that are worn down but they are fine. Like new, really. Plus, the front brake worked perfect prior to me monkeying with it.
So I'm feeling pretty stupid here and once again, I am clearly not a gifted mechanic otherwise I wouldn't need help with this pretty primitive design brake system. I'm hoping some really smart fellow will say "look dummy... you forgot to do x,y,z."
Thanks in advance.
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