Superelevation with Trainz 22

The "superelevation" or the slope of rails in curves is proposed since T:ANE. This page updates the instructions for Trainz 22

Implementing Superelevation

To resist centrifugal force and and not to wear out prematurely the outer rail, the track must be tilted on bends.
Applying a gradient to a curved section of track is called superelevation.

Here is the example of a machine launched to 80 kph in a curve of 500 meters of beam. The slope of the track has been set to 4 °.




To implement Superelevation in Trainz 22, follow the steps below :

On the tools palette,select the highlighted icone as shown on the opposite picture (1) Clic on the track to select it (2) Clic on one of the submits of the selected track (3)

Clic on Edit Properties (1) Complete both sections (2) Determining the variable 'Superelevation Degree' is essential for applying superelevation to a curve... more details to follow in this ‘How To’... Do the same with the other submit of the track

Surperelevation : theoritical base

  Everything that follows in this section is designed to give you the theoretical basis for calculating a superelevation. In the next section, a spreadsheet will be provided to do all the calculations for you.

•   The Superelevation is the height that the outside rail takes compared with the internal rail in a curve.

        It is calculated as the plan below shows it:
   

•   Of the four variables above (G, V, R,g), one is unknown at the start: the radius of the curve.

        The diagram below shows how to determine it :
   

•   Trainz 22 introduces an aditionnal concept for determining the superelevation of a curve: the degree of curvature.
  

Here, with a quarter-circle curve, the curve angle is 90°. The more open the curve, the greater the angle. The tighter the curve, the smaller the angle.

To apply superelevation in Trainz, we saw above that we had to calculate the 'superelevation degree'. More precisely, this means to determine the angle of the slope by degree of the concerned curvature.

Example: we have a curve with a curve angle of 60° and a superelevation angle of 4°. The 'superelevation degree" will be equal to 4/60 = 0.066.

Superelevation: how do we go about it?

To proceed to the calculations, download and save to your hard drive the spreadsheet Here

Proceed in two steps :

• measure the chord and arrow of your curve
• proceed to the calculations with the spreadsheet
  
  

Measure the chord and arrow of your curve :

In your Asset Palett, select the spline 'ruler' <kuid:447125:108> Ruler Metric or <kuid:447125:109> Ruler Imperial Measure the lengths of the chord and the arrow as shown opposite

Procced to the calculations whith the spreadsheet :

Enter the values of chord and arrow (1) Indicate the maximum speed in the bend and choose between 'standard' or 'metric' gauge (2) Look at the value of SuperElevation now displayed (3) : it doesn't have to exceed 16 cms (6.3 inches) in standard gauge way and 10 cms (3.94 inches) in metrics. If it is the case, reduce the Max speed. Note the value of superelevation degree (4) and complete the property 'Superelevation Degree' of your tracks as shown in the first section. Also complete teh second property 'Superelevation Limit' with these values : 6,4 (standard gauge) or 5,8 (metric gauge).