Delrin guides not the problem.....The problem is it don't work like that...because I have proven it time upon time that they can bring issues with temperature..
With guides and Top Hats they are often driven on. While spring expansion at full cock is not nearly as great as once considered...in fact some springs barely opening up at all at full compression, let alone under supposed pre load...
I have measured numerous springs, once thought to expand by 0.5mm in dia. fully cocked, which had not expanded more than 0.2mm...and sometimes less.
An already tight guide with 0.1mm of interference could go up another 0.15mm (if you check temp expansion figures).."that equates a big problem.
One thing I warned many so called Tuners about when employing Delrin, is never to go too tight on tolerances..
It does not need it, as even a sloppy Delrin guide will kill twang much better than a steel one. Not that I'm suggesting going with Sloppy, but these interference fits will see problems.
You correctly highlight even greater potential problems with piston rings, often made to very close tolerance. Some tuners even proud of how tight they have their tolerance....big mistake..
It's interesting that in F1 Motor sport, they never talk in tight tolerance terms.....they talk in correct clearance terms...that's the key ...
As regard the FWB 6ftlb sledge system in 300 and 300 SU models....they will diesel for fun if incorrect lubes get inside, proving they generate ample heat for problems...
Steveoo, you are probably right regarding the Delrin thermal expansion in cases where there is no clearance. Out of curiosity, I ran some theoretical numbers on my own setup (hopefully I didn't make any errors). This is for a TX200 comparing a steel to Delrin inner spring guide:
Initial Conditions at 70 degrees: Stainless Steel Guide OD: 0.5325 inches
Delrin Guide OD: 0.5325 inches
Spring ID: 0.5625 inches
Material Coefficient of Thermal Expansion used: Stainless Steel Guide 9.4 x 10^-6 in/in F
Delrin Guide 50 x 10^-6 in/in F
Spring 12 x 10^-6 in/in F (I assumed the spring is of cheaper steel than the guide, thus higher CTE).
Final Conditions at 120 degrees (+50 degree swing): Stainless Steel Guide OD: 0.55426 inches (0.00026 increase)
Delrin Guide OD: 0.55539 inches (0.00138 increase, 5.3x more than steel)
Spring ID: 0.56216 inches (0.00034 decrease)
Clearance at 120 degrees (not accounting for ID expansion due to loaded spring): Stainless Steel Guide: 0.56216 - 0.55426 = 0.0079 inches
Delrin Guide: 0.56216 - 0.55539 = 0.00677 inches
The spring ID should enlarge by up to 0.006066 inches, so for the Delrin guide there will be at most 0.012836 inches of clearance and for the steel guide there will be 0.013966 inches. BUT keep in mind that in my setup you can easily remove the spring guides. I've not been able to do the same with commercial kits, which implies they are not leaving much room for thermal expansion.
Please note that this is an extreme example and there will always be deviations in theoretical calculation, but its certainly something to keep in mind when tuning for hot weather.
PS. Mistakes are my own - its worth double checking the work when doing your own tune.
-Marty
www.customairseals.com 
www.thermoworks.com 
