Friday, August 28, 2020

Transition Curve

Transition curve is provided to change horizontal alignment from straight to circular curve gradually. Transition curve has a infinite radius at straight road and gradually changes to designated radius at circular curve. As the length of transition curve increases radius decreases,  i.e.

 

from straight to circular curve centrifugal force introduce gradually. i.e. 


Objectives or Necessity of transition curve:

  • To gradually introduce the centrifugal force in between straight and circular curve.
  • To avoid sudden jerk.
  • Transition curve will insure easy to follow path for drivers.
  • To gradually introduction of super elevation. 
  • To introduce extra widening gradually.
  • Improve aesthetic appearance of the road.  

Ideal shape of transition curve or Requirement of ideal transition curve:

  • Rate of introduction of centrifugal force or rate of change of centrifugal acceleration should be constant or uniform. 
  • Length of transition curve is inversely proportional to radius of curve.
  • Spiral type of curve or clothoid type of transition curve fulfil the conditions of ideal transition curve as per IRC.      

Length of transition curve:

As per the IRC minimum length of transition curve should be determined as maximum of the following three criteria's,
  1. As per rate of change of centrifugal acceleration. 
  2. As per rate of change of super-elevation.
  3. Minimum length of transition curve by empirical relation.  

1. As per rate of change of centrifugal acceleration :



2. As per rate of change of super elevation: 

  • 1 in 150 for plain and rolling terrain
  • 1 in 60 for mountainous and steep terrain 
where, 
1 in N means, 
1 = rise height of outer edge which is achieved at N length of transition curve.
therefore, 
length of transition curve can be written as,

Lt = 150. x            for plain and rolling terrain 
Lt = 60. x              for steep and mountainous terrain              

Calculation of x :
1. Rotation about inner edge: 


2. Rotation about central axis:



3. Minimum length of transition curve as per empirical relation:


for plain and rolling terrain, 


for steep and mountainous terrain,


Where, 
V in kmph
R in meter
Lt in meter


at
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