I am curious if any experiments were done to increase locomotive traction in ways other than weighing down the engine for adhesion and spreading the effort over multiple engines and using sand.
Have other ways been explored, such as wheels with friction treads?
Gear & racks (cog railways)
Hi-ad radial trucks
Maxitrax, and other electric / electronic traction controll systems for better adheasion
AC traction motors
-Don (Random stuff, mostly about trains - what else? http://blerfblog.blogspot.com/)
Friction modification in the rail environment can be a double edged sword. Modifiers that can increase the traction of engines can also increase the resistance to the cars movement. Modifiers that can ease the movement of cars, may also decrease the traction available to the engine.
Never too old to have a happy childhood!
Check out Marty Banes' steam pages, in particular:
http://www.martynbane.co.uk/modernsteam/ldp/wheelprofile/profilefcaf.htm
This is a high adhesion wheel profile for steam locomotives. Lots of other modern steam development information, too.
- James
A lot of modern steam locomotives had railwashers installed after the rear drivers to clean sand off the rails. The locomotive would put down sand under the drivers for increased traction then wash the sand off the rails so that the rest of the train would not have to run over the sand and increase the friction. It seemed to work pretty well.
This is very interesting information. The talk about the oddly-cut wheels seemed to be related to avoiding contamination by lubrication. What I'm asking about is if there are trains that have special high-friction wheels for acceleration that may or may not be removed for cruising (if there is such a concept in railroading). I refer to the clever application of the extra axle for accleration in some newer locomotives (using hydraulics to raise/lower the axles for better adhesion).
I have heard of a controlled wheel-slip technique used at low speeds to improve traction. I remember comments about it while watching a video of the York Canyon coal train at Raton Pass.
See also the explanation by beaulieu in the "Wheel Slip Control on NS SD60I's - Question" thread at - http://cs.trains.com/trccs/forums/t/164145.aspx
I've alao run across some other explanations - I'll see if I can retreive/ find the links to those and post them here, too.
Here's a good one, for starters: http://www.republiclocomotive.com/ac_traction_vs_dc_traction.html
- Paul North.
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