#16
|
|||
|
|||
Why does a bike shimmy and what determines the speed at which the shimmy happens? I've been noticing this more on my bikes at speed and assumed it was gusts of wind or something off balance in a tire.
|
#17
|
|||
|
|||
I had a problem with shimmy at the beginning of the year. Like the OP I thought it was the deeper dish wheel getting crosswinds, but I have two other sets of wheels, less deep and the bike did the same thing. It started at 50 km/h.
I found a solution and it was my error. When reinstalling the ISO speed front coupler system I had the sleeve turned 90 degrees and this was enough to make the bike unstable. Fixed this and now it starts to shimmy at 80 km/h which is a speed I will never do again. |
#18
|
|||
|
|||
Little changes can make a big difference. I had a bike that had zero shimmy with 650b wheels, but shimmied dangerously with 700c wheels.
On that bike (it was steel), resting my left knee against the top tube was generally enough to eliminate the shimmy entirely. |
#19
|
|||
|
|||
Quote:
Long story short, unlike popular belief, a shimmy is not caused by something being "broken" or out of alignment or out of balance - a shimmy is an inherent system property that occurs within a particular speed range. Which is not to say that a shimmy can't be "fixed" - but the fix is to change system parameters to move the shimmy speed into a speed range the bike will never travel. |
#20
|
|||
|
|||
I was reading about this and one thing suggested is to press your knees against the top tube and unweight the saddle. So if it ever happens I will know what to do.
|
#21
|
|||
|
|||
IIRC (I am no expert on this) and in my experience what I have seen is that if you have a well designed bike that is designed to not shimmy until a very high speed you can see wind + bumps initiate a shimmy but the bike should not start oscillating out of control and increase the severity of the shimmy.
I believe Dave Kirk posted some very interesting stuff about this in the past about studying this at Serotta. Most of my bikes including my Serotta Concours and even my motorcycles have exhibited this kind of behavior where a bump and/or wind at the right time would initiate a shimmy but it would resolve on it's own. On motorcycles the big initiator has always been high acceleration and you're either getting the front wheel light or you've coming down from a wheelie and the front tire hits something. Race replica bikes will have a damper built into the steering to prevent it. We have had a ton of really high winds the last month or two. My Domane does not really shimmy at any reasonable speed I've experienced (but I have never gone above 50mph on it) but it has Ksyriums on it and those really don't do that great in extreme cross winds... I have be very cognizant of it to not tense up my body and there have been a handful of rides I have stopped pedaling and slowed down it's been so windy. I would have thought a Tarmac would be so well engineered at this point it's shimmy speed would be at some outrageous speed like 75-100mph. Pretty much every carbon frame I've had that had a huge BB and a tapered 1 1/8" to 1 1/4" fork has been almost completely immune to it. My gut feeling is newer bikes have been getting more and more resistant to this as tires have gotten bigger and at least on carbon they're doing tricks with compliance that let them keep the frame/fork extremely stiff in all the right places. Last edited by benb; Today at 10:26 AM. |
#22
|
|||
|
|||
Quote:
It's actually the nature of bicycle steering geometry. The stability of the geometry going straight is not that robust. If you think of it that way, many small issues with the bike can reduce that stability. The steering does self-center, but in a situation like a wind gust, the forces that self-center can push the wheel too far past center. Then it re-centers and goes too far the other way. And repeat. That's shimmy. |
#23
|
|||
|
|||
Quote:
They are at the level on motorcycles where they also think about how much the fork or frame can oscillate side to side (not on the axis of the suspension) and tuning that for extreme lean angles.. and it apparently changes with tire grip levels as one of the variables. They can do extremely stiff on a motorcycle but it sounds like it's not optimal. You're not going to do that without actually engineering it. Especially if you're Ducati/Honda/whatever and the bike is a million dollars+ for Moto GP and trial and error testing could be very dangerous. It's pretty fascinating to look at the history of motorycle frames and how they developed out of bicycle frames. The early ones were basically bicycle frames, no different than eBikes are today, and frames on cruisers are often still centrally located just like a bike frame. Last edited by benb; Today at 10:44 AM. |
|
|