More problems can be experienced with wheelslip/slide when a light fall of rain occurs just after a prolonged dry spell, with the effect of the water lifting various ingrained contaminants from the railhead and therefore further reducing rail adhesion - whereas a very heavy rainfall often has the benefit of clearing such deposits from the railhead by the force of the rain, or of course the artificial method of the RHTT water cannon trains!
I've been thinking about this today as the weather has made things very *ahem* "interesting".
This idea of water lifting contaminants out of the railhead was something I was also told when I was being trained. While this holds true for an asphalt road surface I just can't believe that it also applies to the railhead.
Both the railhead and the train wheels are made from a hard steel and become highly polished with use. While they will not always be perfectly smooth and without any blemishes, I just can't see where contaminants can lurk undetected until such time as a drop of rain causes them to float off and cause problems. Sure if you already have contaminants on the railhead adding water to them doesn't help because suddenly you've got something wet on top of something slippery and it just greases the rail up further, but the contaminants were already there and would be causing problems anyway.
I think the more likely explanation is due to the difference in water droplet size and how this affects the behaviour of water. As a biker I have ridden in all sorts of rain and seen how it behaves differently when it strikes a handy surface (in this case, the outside of my visor).
The worst type of rain is a very fine rain, almost like a mist. The droplet size is very small with very little mass, too small for the weight of the drop alone to overcome the force of it's own surface tension. Therefore it appears to stick and, on a crash helmet visor, quickly builds up into an foggy layer. Even travelling at motorway speeds and turning my head so the visor is more into the air flow fails to clear it because it is not possible for even a strong wind blast to clear the drops away. Where you get a more "normal" rain with larger droplet size the force of the surface tension is more easily overcome because the droplet has sufficient size and mass.
The same would apply to the railhead. A very fine, light rain would cause a build-up of water on the railhead that would not clear of it's own accord because of the size of the water droplets, where larger droplets would bead and run off. Therefore in light rain you would actually end up with MORE water sitting on the railhead than would be the case in medium to heavy rain, making the rail proportionately more slippery.
I'm not a scientist, but this explanation makes much more sense to me.
O L Leigh
