ENV 13803-1 : DRAFT 2002
Superseded
A superseded Standard is one, which is fully replaced by another Standard, which is a new edition of the same Standard.
RAILWAY APPLICATIONS - TRACK ALIGNMENT DESIGN PARAMETERS - TRACK GAUGES 1435 MM AND WIDER - PART 1: PLAIN LINE
06-01-2010
01-12-2013
Foreword
1 Scope
2 Terms and definitions
3 Symbols and abbreviations
4 Requirements
4.1 Background
4.1.1 Track alignment design parameters
4.1.2 Parameter quantification
4.1.3 Traffic categories
4.2 Recommended limiting values and maximum (or minimum)
limiting values for track alignment design parameters
4.2.1 Radius of horizontal curve R
4.2.2 Cant D
4.2.3 Cant deficiency I
4.2.4 Cant excess E
4.2.5 Rate of change of cant as a function of time
dD/dt
4.2.6 Rate of change of cant as a function of length
dD/dl
4.2.7 Rate of change of cant deficiency as a function
of time dI/dt
4.2.8 Length of alignment elements (circular curves
and straights) L[i]
4.2.9 Length of transition curves in the horizontal
plane L
4.2.10 Vertical curves
4.2.11 Radius of vertical curve R[v]
4.2.12 Vertical acceleration a[v]
Annex A (informative) Supplementary information for track
alignment design related to shape and length of
alignment elements
A.1 Table summarising the properties of different
transition curves shapes, compared with the
conventional cubic parabola and clothoid which
are the bases of the Prestandard
A.2 The rolling movement of a vehicle and its relation
with minimum length of alignment elements
A.3 Further parameters that may be considered for track
alignment curve design and a progressive system of
design rules
A.3.1 Symbols and abbreviations
A.3.2 Objectives
A.3.3 Progressive track alignment design
A.3.4 Application
Annex B (informative) Classification of parameters as a
function of their influence on safety, comfort and
economy
B.1 General
B.2 Safety
B.3 Comfort
B.4 Economy
Annex C (informative) Track resistance to lateral forces
generated by the rolling stock
C.1 General
C.2 The effect of alignment design components on lateral
forces generated by the rolling stock
C.2.1 Cant deficiency
C.2.2 Cant excess
C.3 The lateral strength limit of a track under loading
(Prud'homme limit)
C.4 Factors influencing the resistance to track lateral
displacement
C.4.1 Rail profile
C.4.2 Type of sleeper
C.4.3 Type of fastening
C.4.4 Ballast characteristics
C.4.5 Running speed
C.4.6 Track consolidation after tamping
C.4.7 Thermal load in rails
C.4.8 Proximity of two axles
C.4.9 Oscillatory axle load variation (vehicle ride
quality in the vertical plane)
Annex D (informative) Other criteria to be considered for the
description of a line classification system
Annex E (informative) Consequences on track resistance, stress
and fatigue resulting from tilting body train systems
E.1 General
E.2 Basic principles applying to tilting body techniques
E.2.1 Safety requirements
E.2.2 Comfort requirements
E.2.3 Economic assessment of the system
E.3 Current practice rules
E.4 Current state of development of harmonised criteria
for tilting trains
Annex F (informative) Rules for converting parameter values
for track gauges wider than 1435 mm
F.1 Scope
F.2 Symbols and abbreviations
F.3 Basic assumptions and equivalence rules
F.4 Detailed conversion rules
F.4.1 Radius of horizontal curve R[1] (4.2.1 of the
main body of the Prestandard)
F.4.2 Cant D[1] (4.2.2 of the main body of the
Prestandard)
F.4.3 Cant deficiency I[1] (4.2.3 of the main body
of the Prestandard)
F.4.4 Cant excess E[1] (4.2.4 of the main body of
the Prestandard)
F.4.5 Rate of change of cant as a function of time
dD[1]/dt (4.2.5 of the main body of the
Prestandard)
F.4.6 Rate of change of cant as a function of length
dD[1]/dl (4.2.6 of the main body of the
Prestandard)
F.4.7 Rate of change of cant deficiency as a function
of time dl[1]/t (4.2.7 of the main body of the
Prestandard
F.4.8 Length of transition curves in the horizontal
plane L (4.2.8 of the main body of the
Prestandard)
F.4.9 Length of transition curves in the horizontal
plane L (4.2.9 of the main body of the
Prestandard)
F.4.10 Other parameters
Annex G (normative) Track alignment design parameter values for
track gauges wider than 1435 mm
G.1 Scope
G.2 Requirements for a gauge of 1668 mm
G.2.1 Cant D[1]
G.2.2 Cant deficiency I[1]
G.2.3 Rate of change of cant as a function of time
dD[1]/dt (mm/s)
G.2.4 Rate of change of cant as a function o length
dD[1]/dl
G.2.5 Rate of change of cant deficiency as a function
of time dl[1]/dt
G.2.6 Length of alignment elements (circular curves
and straights) L[i1]
G.2.7 Vertical curves
G.2.8 Radius of vertical curve R[v1]
G.2.9 Vertical acceleration a[v1]
Annex H (informative) Constraints and risks associated with the
use of maximum (or minimum) limiting values
Annex I (informative) Recapitulation of the work carried out
by the ORE B 55 Committee - maximum permissible cant
I.1 Introduction
I.2 Criteria for safety against derailment at low speed
through wheel-climbing
I.3 Limiting values for track twist
I.4 Rules applicable to the design of and checks performed
on new vehicles with regard to their capability of
coping with track twist values
I.5 List of reports published by the ORE B 55 Committee
Annex ZA Correspondence between this European Prestandard and
EC Directives
Bibliography
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