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I posted images of my 39 Knuckle a day or so ago.
The bike was restored about 5 years ago, ridden for 30 miles over that time period and in between sat in various climates, temperature controlled and then open shop area on a pallet racked stored without a cover or means to protect the bike from corrosion.
In Hawaii it is a big deal when it comes to corrosion, we have an active volcano spewing sulfuric dioxide and when the winds blow out of the south we get vog. Temps run to 90's in the day and drops to the mid to low 70's most nights, enough to make metal sweat and condensate.
To top if off, with the chlorides from the ocean the mix is quite noxious for metals, especially when both the sulfuric dioxide particles get wet, sulfuric acid forms (rainfall tests of pH here show that the rain water is 3.5 to 4 pH, acidic) and mixes with chlorides to fast track corrosion.
The rotating stud that holds the shift lever that rides on thebrass bushing froze in the bushing carrier assembly that is pressed into the repop tank.
Riding the bike form the shop home did not help it at all, as now the bushing carrier assembly that is splined to hold to the tank tab has broken free, rotates a few degrees back and forth.
I used one of the thin film rust inhibitors we distribute, (We are in the rust & corrosion control business) and treated the steel fastener that rides inside the brass bushing to free the fastener. The inhibitor works wonders for unlocking frozen mechanisms without a lot of force and after a couple three treatments was able to tap the rotating fastener out of the bushing.
The people who did this restoration seemed to be in love with some type of compound that seals things like petcocks from leaking and since the bike sat for years, I can't break free the petcock on the left side of the tank to get the fastener out. These people are no longer around to ask what was used so with that I am not into forcing parts out and causing further damage.
The bike is fully streetable, has a great paint job on it so I am not attacking anything with heat.
I used valve grinding compound to lap the fastener inside the brass bushing to clean the ferrous oxide down to good substrate, not enough to allow wobble, then cleaned the brass bushing out with the thin film inhibitor to get all the grit out.
However, the splined carrier for the brass bushing has enough play in it to hamper a good clean smooth operational assembly for the shift lever as there is wobble there. With the free play the tolerance is excessive and does not allow for good clean shifting.
Is this assembly typical, where there is a splined carrier for the brass bushing that is pressed into the tab on the fuel tank?
Are replacements of this carrier assembly available?
I see that Colony and others only sell the bushing and the remainder of the assembly to mount the shift lever.
I have an idea on how to make a repair if there are no replacement carriers available but before I do this I thought it best to ask first because my idea involves use of small roll pins and some drilling and if I can stay away from that I would prefer a more sanitary repair than going gonzos like a surgeon on a bone.
Thanks fellow members for any help you may provide.
Best Regards,
Rich Moran
The bike was restored about 5 years ago, ridden for 30 miles over that time period and in between sat in various climates, temperature controlled and then open shop area on a pallet racked stored without a cover or means to protect the bike from corrosion.
In Hawaii it is a big deal when it comes to corrosion, we have an active volcano spewing sulfuric dioxide and when the winds blow out of the south we get vog. Temps run to 90's in the day and drops to the mid to low 70's most nights, enough to make metal sweat and condensate.
To top if off, with the chlorides from the ocean the mix is quite noxious for metals, especially when both the sulfuric dioxide particles get wet, sulfuric acid forms (rainfall tests of pH here show that the rain water is 3.5 to 4 pH, acidic) and mixes with chlorides to fast track corrosion.
The rotating stud that holds the shift lever that rides on thebrass bushing froze in the bushing carrier assembly that is pressed into the repop tank.
Riding the bike form the shop home did not help it at all, as now the bushing carrier assembly that is splined to hold to the tank tab has broken free, rotates a few degrees back and forth.
I used one of the thin film rust inhibitors we distribute, (We are in the rust & corrosion control business) and treated the steel fastener that rides inside the brass bushing to free the fastener. The inhibitor works wonders for unlocking frozen mechanisms without a lot of force and after a couple three treatments was able to tap the rotating fastener out of the bushing.
The people who did this restoration seemed to be in love with some type of compound that seals things like petcocks from leaking and since the bike sat for years, I can't break free the petcock on the left side of the tank to get the fastener out. These people are no longer around to ask what was used so with that I am not into forcing parts out and causing further damage.
The bike is fully streetable, has a great paint job on it so I am not attacking anything with heat.
I used valve grinding compound to lap the fastener inside the brass bushing to clean the ferrous oxide down to good substrate, not enough to allow wobble, then cleaned the brass bushing out with the thin film inhibitor to get all the grit out.
However, the splined carrier for the brass bushing has enough play in it to hamper a good clean smooth operational assembly for the shift lever as there is wobble there. With the free play the tolerance is excessive and does not allow for good clean shifting.
Is this assembly typical, where there is a splined carrier for the brass bushing that is pressed into the tab on the fuel tank?
Are replacements of this carrier assembly available?
I see that Colony and others only sell the bushing and the remainder of the assembly to mount the shift lever.
I have an idea on how to make a repair if there are no replacement carriers available but before I do this I thought it best to ask first because my idea involves use of small roll pins and some drilling and if I can stay away from that I would prefer a more sanitary repair than going gonzos like a surgeon on a bone.
Thanks fellow members for any help you may provide.
Best Regards,
Rich Moran
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