Comparison of train and tram tracks

The diagram shows typical wheel and rail profiles for tramways (left) and railways (right). The tramway design, which is embedded in the ground, is used when other traffic is present, such as motor vehicles and pedestrians.

File:Drawing -- tramway and railway wheel and rail profiles.png

As shown in the diagram, compared to wheels on railway rolling stock, tram wheels have a smaller tread (US: rim) resting on the rail and a smaller flange preventing sideways movement. Coning of the tread is matched by the rail profile (tramways) and inclination of the rail (railways).{{cite document |title= Drawings 2006 (rail) and 7425 (wheel and gauges) |date= 1937 |location= Adelaide, South Australia |publisher= Municipal Tramways Trust }}{{cite web|url=https://www.harmersteel.com/tee-rails/100-lb-yd-ara-a-rail/ |title=100-lb/yd ARA-A rail |date=2010 |website=Harmer Steel |access-date=16 March 2025}}

cellspacing="0" cellpadding="0" style="margin:0 0 1em; width:40% background:white;" | style="width:50%; vertical-align:top; border:1px solid #BFBFBF; background:#F9F9F9;"| Guard rails do not normally come into play Train and tram wheels have a flange on one side to keep the wheels running on the rails when the limits of the geometry-based alignment are reached, either due to some emergency or defect, or because the curve radius is so small that self-steering normally provided by the coned wheel tread is no longer effective. But in normal running on satisfactory track, the conical geometry of their wheels ensures they stay centred on their tracks without the flanges touching load-bearing rails or guard rails.{{cite book |last1=Wickens |first1=A.H. |title=Fundamentals of rail vehicle dynamics: guidance and stability |date=2003 |publisher=Swets & Zeitlinger |location=Lisse |isbn=978-90-265-1946-8 |pages=75–76}}

When trams (or light rail vehicles in the present era) travel in corridors reserved for them, it is usual for them to run on track configured the same as on railways, as in the right-hand diagram, the only difference being:

• in the case of wheels, the smaller profile
• in the case of rails, a smaller gap ("flangeway") between the load-bearing rail and a guard rail at crossings.

The photo shows the configuration where wheel flanges go through flangeways at a crossing in a railroad switch or turnout (top left) and are constrained during the process by a guard rail (right) that acts on the back of the flange. In both cases, flanges on rail vehicles require wider flangeways than those on light rail vehicles. This factor militates against the widespread use of common track for trains and trams. However, it is possible to find an optimal combination of both rail and wheel profiles, and positioning of rails, when dealing with a closed railway system, i.e. when only one type of rolling stock is running on a track and no influence of other types of railway vehicles is present. An example of such a closed system is the Rotterdam Metro network in The Netherlands.{{cite web|url=http://esveld.com/Download/TUD/Coenraad%20Esveld%20-%20Issue%202%202006.pdf |title=Shape optimisation of a railway wheel profile |first1=Coenraad | last1=Esveld |first2=Valery L. | last2=Markine |first3=Ivan Y. | last3=Shevtsov |website=esveld.com |publisher=Esveld Consulting |access-date=16 March 2025}}{{cite web|url=https://repository.tudelft.nl/record/uuid:a728ca2a-9fa9-4b0f-959f-2fca6ca25365 |title=Wheel/rail interface (Shevtsov_20080603.pdf) |first=Ivan Y. | last=Shevtsov |date=2008 |website=TUDelft |publisher=Delft University of Technology |page=180|access-date=16 March 2025}}

Image:Strijkregel in wissel.jpg on the common crossing at the left]]

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• Railway track
• Tramway track
• Wheelset
• Wheel gauge

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Category:Permanent way

Category:Technological comparisons