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Input data for program KPF 



##
##    Input data for program "kpf"
##

  ident1= 'Wheel: wheel_L  wheel_R',
  wlfile= 'w_prof/wheel_L.wheel'
  wrfile= 'w_prof/wheel_R.wheel'
  wlfile_comp= '$genkpf/../w_prof/EN13715.2006/ENS1002t32.5.wheel',
  wrfile_comp= '$genkpf/../w_prof/EN13715.2006/ENS1002t32.5.wheel',

  ident2= 'Rail: rail_L  rail_R',
  rlfile= 'r_prof/rail_L.rail',
  rrfile= 'r_prof/rail_R.rail',
  rlfile_comp= '$genkpf/../r_prof/uic60/uic60i40.rail',
  rrfile_comp= '$genkpf/../r_prof/uic60/uic60i40.rail',

  iscren= 0,            # Select screen display
  ilaser= 9,            # Select laser printer output

  fzhr = 70000          # Vertical load on contact surface when evaluating the
                        # wheel-rail geometry functions.

  ident3='Wprof_lat_shift= 0.  Gauge= 1425-1441'

  kpfr_type= 'cp1'

  bo    =   750.        # Lateral semi-distance to the nominal running circle(origin)
  origin_to_gauge= 32.5 # Gauge measuring point to nom.running circle, lateral distance
  origin_to_iwheel= 70. # Inside wheel to nom.running circle(origin), lateral distance

  wprof_lat_shift= 0.   # Wheel profile lateral shift, positive outwards

  iplotg= 1,            # Plot of the wheel and rail geometry
  iplot3= 2,            # Connection plot and contour contact pressure
  iplotk= 2,            # Plot the wheel-rail geometry functions

  iborder= 1            # Don't stop the calculation if the rail profile file has
                        # unsufficent data describing the inside of the rail head.
  izero = 1             # Do not zero-set DRKP and ZKP at eta=0.
  fiteps= .25e-2        # Set the accuracy how well the wheel-rail geometry
                        # functions shall be fitted to the calculated points.

  gauge_effcon= 1425 1427 1429 1431 1433 1435 1437 1439 1441

  dyeffcon=.1,.5,2,3,4,6 # Amplitudes for which the conicity shall be printed
                         # in the conicity diagram

  i2kp= 0               # One-point contact
# i2kp= 1 yh2cp=25,25   # Manual setting of two-point contact
# i2kp= 2               # Automatic detection of two-point contact
# i2kp= 3               # Automatic detection of three-point contact

  octave_file= m/$ident.m  # Write stdout to a m-file, readable by octave/matlab.
  gpdat_file= ' '          # Suppress writing a gp-file

##
##  Considering the roll angle of the wheel profiles due to a flexible axle
##  the following data must be supplied.
##  -----------------------------------------------------------------------
  r_axle = 1e30                 # Radius of the axle
# r_axle = 0.08                 # Radius of the axle
  bl_axle= 1.                   # Lateral distance to the journal
  r_wheel= 0.50                 # Radius of the wheels.

  r_measured_axle = 1e30        # Radius of the measured axle
# r_measured_axle = 0.08        # Radius of the measured axle
  bo_measured_axle= 0.75        # Lateral distance to the contact point
  bl_measured_axle= 1.          # Lateral distance to the journal
  fzhr_measured_axle= 70000     # Static wheel load on measured axle
  chi_measured_axle= 0.1745     # Pitch angle between a vertical line and
                                # the measuring device [rad]