ChriSTian_64
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While replacing the 3 O-Rings of my rear wheel, I decided, just for fun, and because I'm curious, to inspect the state of the five rubber dampers of the hub. The maintenance manual don't say much about them, just how to remove and replace them. Not much about when and why to replace them, no schedule nor tolerance measurements.
So, I used 2 small prybars, and gently lifted the driven flange....
Geee. That looks a bit dirty. A bit of old grease, rubber powder... A good clean couldn't hurt.
So, let's unscrew the five bolts of the dampers holder (6 mm alenkey).
I could then "unscrew" (1/8 of a turn, counterclockwise) the damper holder, and have access to the five rubber dampers to "inspect" them.
I started to remove them, one by one, proceed to clean the hub (plenty of rubber and alu powder), and then...
What ! What's that ? What happend ?
Do you see that missing chunk of aluminum ?
I certainly wasn't expecting that amount of wear... or.. it's more a damage than a normal wear, I think, since my 2000 ST1100 only has 22 000 miles / 34 000 km.
3 of the dampers are perfect, 2 of them had their aluminum insert that went thru the rubber damper and were scatching the bottom, wich is the hub.
Now, I took my micrometer, measured the diameter of the holes to check if they were ovalized. Nope... or so little... 0.4855 vs 0.4825... 3 mils of an inch.
Now, I'm not an engineer, but, unless I'm missing something, the five posts of the driven flange are moving clockwise or conterclockwise, so, they are squizing those dampers left or right. Not up and down.
So, what in the world could have pushed down two of those aluminum inserts enough to scrape the hub like that ?
And why just those two, and not the three others ?
See, just comparing a damaged damper (left) with one that is normal (right).
My guess, is that it is probably while re-assembling the wheel, when the driving flage was put back in the hub, maybe it wasn't exactly straight and... by using a small hammer, two of the post pushed those inserts thru the bottom of the rubber dampers.
Or, more likely, a common problem while putting the wheel back in place, is that it don't fit right where it should go at the first try, and we have to play back and forth, turning the wheel a bit, until it slip in the right place.
But by doing so, we make the flange play back and forth into those inserts, and we may push them at the bottom of the dampers.
So, we have to be carefull in doing so.
A new set of five dampers and inserts, from partzilla, is about 250 canadian dollars.
Since my dampers and inserts are still good, not too slack, not ovalized, and all I need is find a way to keep the inserts where they should be, I think I found a temporary cheap solution, with water hose rubber washer.
Final remarks :
1- the total amount of damping has to be equally distributed among the five posts of the driving flange.
That is why we have to replace those dampers as a whole set of five, so that they all show the same resistive force to each posts. With one or two dampers scratching the hub like this, those posts were taking more than their share of the load.
2- Nothing was visible without disassembling the dampers. I think it shows the importance of visualy inspecting and cleaning the parts, whenever we have a chance to do it.
So, I used 2 small prybars, and gently lifted the driven flange....
Geee. That looks a bit dirty. A bit of old grease, rubber powder... A good clean couldn't hurt.
So, let's unscrew the five bolts of the dampers holder (6 mm alenkey).
I could then "unscrew" (1/8 of a turn, counterclockwise) the damper holder, and have access to the five rubber dampers to "inspect" them.
I started to remove them, one by one, proceed to clean the hub (plenty of rubber and alu powder), and then...
What ! What's that ? What happend ?
Do you see that missing chunk of aluminum ?
I certainly wasn't expecting that amount of wear... or.. it's more a damage than a normal wear, I think, since my 2000 ST1100 only has 22 000 miles / 34 000 km.
3 of the dampers are perfect, 2 of them had their aluminum insert that went thru the rubber damper and were scatching the bottom, wich is the hub.
Now, I took my micrometer, measured the diameter of the holes to check if they were ovalized. Nope... or so little... 0.4855 vs 0.4825... 3 mils of an inch.
Now, I'm not an engineer, but, unless I'm missing something, the five posts of the driven flange are moving clockwise or conterclockwise, so, they are squizing those dampers left or right. Not up and down.
So, what in the world could have pushed down two of those aluminum inserts enough to scrape the hub like that ?
And why just those two, and not the three others ?
See, just comparing a damaged damper (left) with one that is normal (right).
My guess, is that it is probably while re-assembling the wheel, when the driving flage was put back in the hub, maybe it wasn't exactly straight and... by using a small hammer, two of the post pushed those inserts thru the bottom of the rubber dampers.
Or, more likely, a common problem while putting the wheel back in place, is that it don't fit right where it should go at the first try, and we have to play back and forth, turning the wheel a bit, until it slip in the right place.
But by doing so, we make the flange play back and forth into those inserts, and we may push them at the bottom of the dampers.
So, we have to be carefull in doing so.
A new set of five dampers and inserts, from partzilla, is about 250 canadian dollars.
Since my dampers and inserts are still good, not too slack, not ovalized, and all I need is find a way to keep the inserts where they should be, I think I found a temporary cheap solution, with water hose rubber washer.
Final remarks :
1- the total amount of damping has to be equally distributed among the five posts of the driving flange.
That is why we have to replace those dampers as a whole set of five, so that they all show the same resistive force to each posts. With one or two dampers scratching the hub like this, those posts were taking more than their share of the load.
2- Nothing was visible without disassembling the dampers. I think it shows the importance of visualy inspecting and cleaning the parts, whenever we have a chance to do it.
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