Hi, first off i would like to say that i have recently found this forum and think its great that a lot of people dont mind sharing their info and tips on here and i hope i can learn some more things from you guys.
Ok I would like to know the correct/proper/accurate way to set floating piston depths in remote reservoir shocks?
I am specifically dealing with old WP shocks which are a bit old by todays standards as most of you guys have the latest and greatest bladder technology.
I do have 2 separate lots of information for correct floating piston depths for WP shocks, but they are not entirely applicable to what i am doing. I am custom building some shocks from a mixture of parts and i plan to fit larger reservoirs (longer and bigger diameter reservoir) as i would like to increase the oil capacity some more. These reservoirs are off of WP's with larger shafts and different amount of travel, so going staight off the WP spec sheets for the listed shocks is not going to be accurate/relaible.
I have calculated out a formula to work out the volume of the shaft from the end eye (including where bump stop fits) to the lip of the oil seal and not just the body cap. And from that i have worked out that when the shaft is compressed metal to metal the rise in fluid level will move the floating piston about 10mm in my application. This would obviously be a little less when the bump stop is fitted, but at the moment to be safe i did it including the area of the shaft where the bump stop sits.
I want to take advantage the larger reservoir to increase oil capacity. I have worked out how much the floating piston would move, but i feel i still need to know more.
How large should the gas volume be? is there a formula for this?
If i am right the gas volume needs to be worked out because if its too small the rise in pressure when the piston moves could be too much for the canister to handle or blow the schrader if the pressure exceeds the rating of the schrader?? yes/no? I have valve cores rated at 400PSI peak.
Is there a standard rule of thumb that says piston should be 50% or 75% of the length of the reservoir canister for example?
Is 'Boyles law' used at all?
what about rise in gas temperature, does that need to be known?
Hopefully someone here can help me as i have always wanted to know how to do this CORRECTLY and get it exactly right when custom building/modifying shocks
Thanks for your assistance :)
Ok I would like to know the correct/proper/accurate way to set floating piston depths in remote reservoir shocks?
I am specifically dealing with old WP shocks which are a bit old by todays standards as most of you guys have the latest and greatest bladder technology.
I do have 2 separate lots of information for correct floating piston depths for WP shocks, but they are not entirely applicable to what i am doing. I am custom building some shocks from a mixture of parts and i plan to fit larger reservoirs (longer and bigger diameter reservoir) as i would like to increase the oil capacity some more. These reservoirs are off of WP's with larger shafts and different amount of travel, so going staight off the WP spec sheets for the listed shocks is not going to be accurate/relaible.
I have calculated out a formula to work out the volume of the shaft from the end eye (including where bump stop fits) to the lip of the oil seal and not just the body cap. And from that i have worked out that when the shaft is compressed metal to metal the rise in fluid level will move the floating piston about 10mm in my application. This would obviously be a little less when the bump stop is fitted, but at the moment to be safe i did it including the area of the shaft where the bump stop sits.
I want to take advantage the larger reservoir to increase oil capacity. I have worked out how much the floating piston would move, but i feel i still need to know more.
How large should the gas volume be? is there a formula for this?
If i am right the gas volume needs to be worked out because if its too small the rise in pressure when the piston moves could be too much for the canister to handle or blow the schrader if the pressure exceeds the rating of the schrader?? yes/no? I have valve cores rated at 400PSI peak.
Is there a standard rule of thumb that says piston should be 50% or 75% of the length of the reservoir canister for example?
Is 'Boyles law' used at all?
what about rise in gas temperature, does that need to be known?
Hopefully someone here can help me as i have always wanted to know how to do this CORRECTLY and get it exactly right when custom building/modifying shocks
Thanks for your assistance :)
