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oSIST prEN 16432-3:2020

(Main)

Railway applications - Ballastless track systems - Part 3: Acceptance

Railway applications - Ballastless track systems - Part 3: Acceptance

This part of EN 16432 specifies the methods for the implementation of ballastless track system designs and the criteria for the acceptance of works concerning construction of ballastless track systems. It does not include any criteria for inspecting, maintaining, repairing and replacing ballastless track systems during operation.

Bahnanwendungen - Feste Fahrbahn-Systeme - Teil 3: Annahme

Applications ferroviaires - Systèmes de voie sans ballast - Partie 3 : Réception

Železniške naprave - Progovni sistemi z utrjenimi tirnicami - 3. del: Prevzem

General Information

Status
Not Published
Public Enquiry End Date
09-Sep-2020
ICS
45.080 - Rails and railway components
93.100 - Construction of railways
Technical Committee
IŽNP - Reilway applications
Current Stage
4020 - Public enquire (PE) (Adopted Project)
Start Date
01-Jul-2020
Due Date
18-Nov-2020
Completion Date
09-Sep-2020
Directive
2016/797/EU - Directive (EU) 2016/797 of the European Parliament and of the Council of 11 May 2016 on the interoperability of the rail system within the European Union (Text with EEA relevance)
Mandate
M/483 - Mandate for programming and standardisation addressed to the European standardisation bodies under directive 2008/57/EC in the field of the interoperability of the rail system within the European Union
Ref Project
FprEN 16432-3 - Railway applications - Ballastless track systems - Part 3: Acceptance

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SLOVENSKI STANDARD
oSIST prEN 16432-3:2020
01-september-2020
Železniške naprave - Progovni sistemi z utrjenimi tirnicami - 3. del: Prevzem
Railway applications - Ballastless track systems - Part 3: Acceptance
Bahnanwendungen - Feste Fahrbahn-Systeme - Teil 3: Annahme
Applications ferroviaires - Systèmes de voie sans ballast - Partie 3 : Réception
Ta slovenski standard je istoveten z: prEN 16432-3
ICS:
45.080 Tračnice in železniški deli Rails and railway
components
93.100 Gradnja železnic Construction of railways
oSIST prEN 16432-3:2020 en,fr,de

2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.

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oSIST prEN 16432-3:2020
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oSIST prEN 16432-3:2020
DRAFT
EUROPEAN STANDARD
prEN 16432-3
NORME EUROPÉENNE
EUROPÄISCHE NORM
June 2020
ICS 93.100
English Version
Railway applications - Ballastless track systems - Part 3:
Acceptance

Applications ferroviaires - Systèmes de voies sans Bahnanwendungen - Feste Fahrbahn-Systeme - Teil 3:

ballast - Partie 3 : Approbation Annahme

This draft European Standard is submitted to CEN members for enquiry. It has been drawn up by the Technical Committee

CEN/TC 256.

If this draft becomes a European Standard, CEN members are bound to comply with the CEN/CENELEC Internal Regulations

which stipulate the conditions for giving this European Standard the status of a national standard without any alteration.

This draft European Standard was established by CEN in three official versions (English, French, German). A version in any other

language made by translation under the responsibility of a CEN member into its own language and notified to the CEN-CENELEC

Management Centre has the same status as the official versions.

CEN members are the national standards bodies of Austria, Belgium, Bulgaria, Croatia, Cyprus, Czech Republic, Denmark, Estonia,

Finland, France, Germany, Greece, Hungary, Iceland, Ireland, Italy, Latvia, Lithuania, Luxembourg, Malta, Netherlands, Norway,

Poland, Portugal, Republic of North Macedonia, Romania, Serbia, Slovakia, Slovenia, Spain, Sweden, Switzerland, Turkey and

United Kingdom.

Recipients of this draft are invited to submit, with their comments, notification of any relevant patent rights of which they are

aware and to provide supporting documentation.

Warning : This document is not a European Standard. It is distributed for review and comments. It is subject to change without

notice and shall not be referred to as a European Standard.
EUROPEAN COMMITTEE FOR STANDARDIZATION
COMITÉ EUROPÉEN DE NORMALISATION
EUROPÄISCHES KOMITEE FÜR NORMUNG
CEN-CENELEC Management Centre: Rue de la Science 23, B-1040 Brussels

© 2020 CEN All rights of exploitation in any form and by any means reserved Ref. No. prEN 16432-3:2020 E

worldwide for CEN national Members.
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oSIST prEN 16432-3:2020
prEN 16432-3:2020 (E)
Contents Page

European foreword ....................................................................................................................................................... 4

1 Scope .................................................................................................................................................................... 5

2 Normative references .................................................................................................................................... 5

3 Terms and definitions ................................................................................................................................... 5

4 General ................................................................................................................................................................ 6

4.1 Overview ............................................................................................................................................................ 6

4.2 Validation of fitness for construction of a novel ballastless track system design ................... 7

4.3 Establishing the criteria for acceptance of work ................................................................................. 7

4.4 Integration in assurance process/Works Acceptance Plan ............................................................. 8

5 Acceptance of works, measurements, checks and related documentation ............................... 8

5.1 Track geometry and position ...................................................................................................................... 8

5.1.1 Introduction ...................................................................................................................................................... 8

5.1.2 Relative track geometry ............................................................................................................................... 8

5.1.3 Absolute track position .............................................................................................................................. 10

5.2 Track stiffness ............................................................................................................................................... 11

5.2.1 Vertical track stiffness ................................................................................................................................ 11

5.2.2 Vertical track stiffness uniformity ......................................................................................................... 11

5.3 Track stability ............................................................................................................................................... 11

5.3.1 Key acceptance criteria Track stability – New design .................................................................... 11

5.3.2 Key acceptance criteria Track stability – Acceptance of work .................................................... 11

5.4 Durability criteria for acceptance of work ......................................................................................... 11

5.5 Drainage .......................................................................................................................................................... 12

6 Acceptance of substructure and subsystems ..................................................................................... 12

6.1 General ............................................................................................................................................................. 12

6.2 Substructure acceptance ........................................................................................................................... 12

6.2.1 Introduction ................................................................................................................................................... 12

6.2.2 Ballastless Track on Earthworks ............................................................................................................ 12

6.2.3 Ballastless Track on Bridges .................................................................................................................... 13

6.2.4 Ballastless track in tunnels....................................................................................................................... 13

6.2.5 Transitions in Substructure ..................................................................................................................... 14

6.3 Acceptance of pavements .......................................................................................................................... 14

6.3.1 Acceptance of base layers ......................................................................................................................... 14

6.3.2 Concrete and asphalt pavements ........................................................................................................... 16

6.4 Acceptance of intermediate layer .......................................................................................................... 18

6.4.1 Acceptance of foil, sheeting ...................................................................................................................... 18

6.4.2 Acceptance of intermediate layer, boot, fixation (concrete filling layer) ................................ 18

6.4.3 Acceptance of levelling layer ................................................................................................................... 19

6.5 Acceptance of prefabricated element (sleeper, block, slab, frame) .......................................... 19

6.6 Rail fastenings ............................................................................................................................................... 19

6.6.1 General ............................................................................................................................................................. 19

6.6.2 Adjusting capabilities of fastening system .......................................................................................... 19

6.6.3 Rail seat spacing – needs to be checked during construction ...................................................... 19

6.6.4 Out of square of the rail seat pair ........................................................................................................... 19

6.7 Rails ................................................................................................................................................................... 19

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oSIST prEN 16432-3:2020
prEN 16432-3:2020 (E)

6.7.1 Introduction.................................................................................................................................................... 19

6.7.2 Stressing work ............................................................................................................................................... 19

6.7.3 Welds ................................................................................................................................................................. 20

6.7.4 Insulated joints .............................................................................................................................................. 20

6.8 Specific measurements for switches and crossings and rail expansion devices ................... 20

7 System specific requirements for installation methods ................................................................. 20

7.1 Acceptance of ballastless track system with continuously supported or embedded

rails .................................................................................................................................................................... 20

7.2 Acceptance of Ballastless track system with discrete rail seats on prefabricated

element, supported by a pavement ........................................................................................................ 21

7.2.1 Pavements providing direct support ..................................................................................................... 21

7.2.2 Indirect support (e.g. using grouting) ................................................................................................... 22

7.3 Acceptance of ballastless track system with discrete rail seats on prefabricated

element, independent from the surrounding concrete filling layer or pavement ................ 22

7.3.1 Before concreting ......................................................................................................................................... 22

7.3.2 After Concreting ............................................................................................................................................ 23

7.4 Acceptance of Ballastless track system with discrete rail seats on prefabricated

element, monolithically integrated in a pavement .......................................................................... 23

7.4.1 Before concreting ......................................................................................................................................... 23

7.4.2 After Concreting ............................................................................................................................................ 23

7.5 Acceptance of Ballastless track system with discrete rail seats on a concrete

pavement ......................................................................................................................................................... 23

Annex A (informative) Risk assessment of novelty in a proposed ballastless track system

design ................................................................................................................................................................ 25

Annex B (informative) Material acceptance tests for intermediate layers .......................................... 26

Annex ZA (informative) Relationship between this European Standard and the

interoperability requirements of Directive2016/797/EC aimed to be covered ................... 27

Bibliography ................................................................................................................................................................. 29

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oSIST prEN 16432-3:2020
prEN 16432-3:2020 (E)
European foreword

This document (prEN 16432-3:2020) has been prepared by Technical Committee CEN/TC 256 “Railway

applications”, the secretariat of which is held by DIN.
This document is currently submitted to the CEN Enquiry.

This document has been prepared under a mandate given to CEN by the European Commission and the

European Free Trade Association, and supports essential requirements of EU Directive(s).

For relationship with EU Directive(s), see informative Annex ZA, which is an integral part of this

document.
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oSIST prEN 16432-3:2020
prEN 16432-3:2020 (E)
1 Scope

This document specifies the methods for the implementation of ballastless track system designs and the

criteria for the acceptance of works concerning construction of ballastless track systems. It does not

include any criteria for inspecting, maintaining, repairing and replacing ballastless track systems during

operation.
2 Normative references

The following documents are referred to in the text in such a way that some or all of their content

constitutes requirements of this document. For dated references, only the edition cited applies. For

undated references, the latest edition of the referenced document (including any amendments) applies.

EN 206, Concrete — Specification, performance, production and conformity

EN 12390-5, Testing hardened concrete — Part 5: Flexural strength of test specimens

EN 13231-1:2013, Railway applications — Track — Acceptance of works — Part 1: Works on ballasted

track — Plain line, switches and crossings

EN 13848-2, Railway applications — Track — Track geometry quality — Part 2: Measuring systems —

Track recording vehicles

EN 13877-2, Concrete pavements — Part 2: Functional requirements for concrete pavements

EN 14587 (all parts), Railway applications — Infrastructure — Flash butt welding of new rails

EN 14730 (all parts), Railway applications — Track — Aluminothermic welding of rails

EN 16432-2:2017, Railway applications — Ballastless track systems — Part 2: System design, subsystems

and components
3 Terms and definitions
For the purposes of this document, the following terms and definitions apply.

ISO and IEC maintain terminological databases for use in standardization at the following addresses:

— ISO Online browsing platform: available at http://www.iso.org/obp
— IEC Electropedia: available at http://www.electropedia.org/
3.1
tolerance
permissible deviation from reference or specified value
3.2
relative track geometry

group of parameters defining the position of the rails, usually the following: gauge, alignment,

longitudinal level, twist and cross level
Note 1 to entry: As described in EN 13848 series.
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oSIST prEN 16432-3:2020
prEN 16432-3:2020 (E)
3.3
absolute track position
position of the track when measured from external absolute references
Example: Network of geodetic reference points.
3.4
alignment
horizontal position of e.g. the track in relative or absolute co-ordinate system
3.5
longitudinal level
vertical position of e.g. the track in relative or absolute co-ordinate system
3.6
design

comprises the calculations, drawings, evidence and specifications relating to the materials and

configuration of ballastless track for a specific project or location within the project

3.7
system design

process of applying a systematic approach to ensure that all elements specified will work together to

fulfil the performance requirements
3.8
ballastless track system

entire structure of a ballastless track from rail to substructure interface and not just a proprietary sub-

system or components
Note 1 to entry: See Figure 2 of EN 16432-2:2017.
3.9
substructure

earthworks (embankment, cutting or at-grade) or bridges (or similar civil structures) or tunnel floor

that lie below the ballastless track system
4 General
4.1 Overview
The following paragraph provides a short guidance through the standard.

Subclause 4.2 provides a general guidance how to identify whether a ballastless track system is novel

and proposes measures necessary to implement it. For the acceptance of any track system a work

acceptance plan should summarize all steps and criteria for acceptance as described in 4.3.

Clause 5 defines the key acceptance criteria for the completed track. All criteria defined in the following

Clauses 6 and 7 aim to ensure that the overall criteria as defined in Clause 5 are met during

construction.

Clause 6 defines parameters for subsystems which are used in various ballastless track system designs.

Clause 7 defines particular requirements for specific types of ballastless track systems.

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oSIST prEN 16432-3:2020
prEN 16432-3:2020 (E)

4.2 Validation of fitness for construction of a novel ballastless track system design

A method shall be used (example see Annex A) that will determine whether a proposed ballastless track

system design is similar enough to an in-service system.

Acceptance can be agreed without further action if the proposed design was already implemented such

that it is proven to fulfil the customers’ requirements.

Where differences (or new aspects) are identified, then additional requirements for implementation

shall be established, based on the findings of the evaluation.

If a proposed design is significantly different from any existing design it will be considered a new

design.

Unless otherwise specified a new ballastless track system design (for the design itself see part 2) can be

accepted based on the acceptance of the subsystems and an agreed step-by step testing procedure of

following tests (but not limited to):

— Laboratory tests designed to study especially the behaviour and the load transfer performance of

the interfaces in-between different subsystems under design load combinations (mechanical,

thermal…);

— A short (50 m) track section built outside the rail infrastructure to demonstrate the ballastless

track installation. The documentation should also cover the analysis and evaluation of tolerances;

— In case of a positive evaluation of laboratory testing and of demonstrator, a test section shall be

built. It is recommended to install the test section along a line, which receives high annual tonnage

representing the planned application of the ballastless track system. The test section shall be tested

and monitored based on an agreed testing and monitoring regime. Where appropriate, Testing,

monitoring and documentation shall cover a period that represents the characteristic climatic

conditions.
4.3 Establishing the criteria for acceptance of work

The acceptance criteria shall be developed from the detailed system design and specifications in

accordance with EN 16432-2. The complete set of criteria thus developed shall encompass all identified

performance risks for the specified design life and define how they shall be inspected, checked or tested

and thereby verified prior to acceptance. This shall include all the requirements that influence how the

ballastless track system interfaces with other elements of the railway system.

The completed ballastless track system shall be accepted before start of in-service traffic. The different

subsystems as stated in EN 16432-2 shall be validated prior to installation of the subsequent

subsystem.

The long term (designed) performance required for a safe and economically sustainable ballastless

track is, in part, dependent on the quality of installation. There is a need during construction for

rigorous inspection, monitoring and, where appropriate, testing.

In view of the more permanent nature and higher performance to be expected from a ballastless track

certain different quality controls and evidence need to be provided.

A failure to meet the defined criteria may be corrected by reparative measures to the track or by a

revision of the design considering the achieved as-built parameters. The second approach does not

relieve the executing contractor from its general obligation to meet the defined criteria.

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oSIST prEN 16432-3:2020
prEN 16432-3:2020 (E)
4.4 Integration in assurance process/Works Acceptance Plan

To integrate the acceptance requirements into a project assurance process, a form of documentation to

plan all the necessary tests and inspection work during and after construction should be prepared.

A Works Acceptance Plan (WAP) shall be created to set out all agreed measurements tests and reports

required to provide evidence that the works have met the specified requirements. Where a System

Assurance Plan has been generated in the design phase (EN 16432-2:2017, 6.2) this may be developed

to form or incorporate the WAP.

The final WAP should implement a risk-based approach to decide what level of verification is necessary.

The degree of novelty and level of risk (uncertainty and consequence, see 4.2) should be used to decide

the actual checks, tests and trials applied and their frequency, to gather the evidence needed to support

the acceptance. Reference to national codes of practice or other standards may also be required to

define typical frequencies of testing or inspection.

The WAP should detail all the requisite inspection and testing plans (ITP) that define both the

applicable tests and the stage in construction to provide a progressive assurance process. This should

recognize the linear and layered nature of track construction work and ensure that required tests are

instigated and checked from the commencement of works and applied in an ongoing process to avoid

the incorporation of hidden defects. The verification should be defined based on quantifiable measures

and include pass/fail criteria that have a reasonable basis and defined method of measurement,

including methodology and number of tests.

The requirements of a suitable ITP/WAP shall ensure that the various subsystems (as defined in

EN 16432-2) have been accepted on a progressive basis prior to installation of subsequent subsystems.

All the acquired evidence shall be validated against requirements before the acceptance can be

considered complete.
5 Acceptance of works, measurements, checks and related documentation
5.1 Track geometry and position
5.1.1 Introduction

The relative track geometry and the absolute track position shall be checked and documented after

completion of the work.
5.1.2 Relative track geometry
5.1.2.1 General

Unless otherwise specified, the relative track geometry shall be according to EN 13231-1:2013.

The tolerances in Table 1 and Table 2 of EN 13231 1:2013 are for loaded track measurements. For

unloaded track measurements, the customer can specify the tolerances for the relative track geometry

parameters, which can be stricter.
5.1.2.2 Additional requirements for V > 160 km/h

To avoid deviations of track geometry in the long wavelength range, the unloaded track geometry shall

be checked before final fixation of track alignment and longitudinal level (e.g. before concreting). Unless

otherwise specified following criteria and limits shall be applied:

— Max. allowable deviation of versine ≤ 2 mm using a 30 m chord for track alignment and longitudinal

level (overlap of chords 5 m). This check shall be done for all rail seats;
and
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oSIST prEN 16432-3:2020
prEN 16432-3:2020 (E)

— Max. allowable deviation of versine ≤ 10mm using a 300 m chord for track alignment and

longitudinal level (overlap of chords 150 m). This check shall be done for all rail seats.

To avoid negative effects of wavelike deviations of loaded track geometry up to 50 m on the running

behaviour of rail vehicles the waviness of track alignment and longitudinal level shall be checked

separately.

The loaded track geometry data shall be recorded using track recording car and measurement and

signal processing procedures according to EN 13848-2. The track recording car shall be able to measure

the track geometry according to the required wavelength range of at least 1 m to 70 m.

NOTE 1 This wavelength range is including the wavelength ranges D0 (wavelength 1 m ≤ λ ≤ 5 m),

D1 (wavelength 3 m ≤ λ ≤ 25 m) and D2 (wavelength 25 m ≤ λ ≤ 70 m) according to EN 13848-1.

Track deviations shall be determined according to wavelength (invers of distance frequency) and

evaluated e.g. using power spectral density PSD (see EN 13848-6:2014; 5.6).

The power spectral density G (j) is determined by the squared effective value of the track deviation

divided by the distance frequency interval dF.

The power spectral density of track deviations for both, the track alignment and the longitudinal level

should not exceed the limit shown in Figure 1 in a distance frequency range of 0,015 [1/m] to 1 [1/m].

In case peaks of a determined PSD exceed the limit in Figure 1 the specific root cause should be

investigated and the required actions agreed with the client.

NOTE 2 For calculating PSD of the track geometry parameters “track horizontal alignment” and “longitudinal

level” an equidistant distance frequency spacing of 0,000 5 [1 / m] and a rectangular window function can be

used.
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oSIST prEN 16432-3:2020
prEN 16432-3:2020 (E)
Key
X Distance frequency [1/m]
Y G [(m^2)/(1/m)]

Figure 1 — Limit for power spectral density for track horizontal alignment and longitudinal

level
5.1.3 Absolute track position
The absolute track position shall be according to EN 13231-1:2013.

Unless otherwise specified, the unloaded track shall comply with Class AP 1 of EN 13231-1:2013, see

Table 1.
Table 1 — Tolerances for the deviation from design track position
Class Vertical position Lateral position Longitudinal position of the
switches and crossings
mm mm mm
AP 1 ±10 ±10 ±10
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oSIST prEN 16432-3:2020
prEN 16432-3:2020 (E)
5.2 Track stiffness
5.2.1 Vertical track stiffness

The vertical stiffness performance of the subsystem/component providing the designed vertical track

stiffness of the ballastless track system shall be specified during track design and verified prior to the

track installation. Therefore, no on-site testing is required to demonstrate the vertical track stiffness.

NOTE The requirements for the subsystems or components providing the elasticity (e.g. EN 13481-5 for

fastening systems) are decided by the ballastless track designer and verified by subsystem/component approval

testing, e.g. EN 13146-9 for fastening systems.

Alternatively, local measurements of absolute rail deflections can be performed. Based on the measured

rail deflections, the track stiffness can be calculated. A detailed measurement procedure including

reference load shall be described.
5.2.2 Vertical track stiffness uniformity

Vertical track stiffness should be uniform along the rail except along designed transitions to control

additional dynamic vehicle-track interaction forces.

If it is agreed to use the loaded track geometry (by using track recording cars) as reference for

ballastless track acceptance, no additional on-site testing is needed as long as the track geometry is

within the limits of 5.1.2.
Alternatively track stiffness recording vehicles can be used.

If alternative methods for determination of dynamic factors for ballastless track design according to

EN 16432-1 are applied, then the demonstration of uniformity of track stiffness by on-site

measurements can be performed according to the method accepted for the design.
5.3 Track stability
5.3.1 Key acceptance criteria Track stability – New design
Track stability shall be demonstrated according to EN 16432-2:2017, 6.5.

NOTE Track stability of ballastless track system design following EN 16432-2:2017, 5.2.2.1 is of special

importance and can be demonstrated with the help of a laboratory test or on site testing.

5.3.2 Key acceptance criteria Track stability – Acceptance of work
...

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This European Standard defines the minimum requirements for the quality levels of track geometry, and specifies the safety related limits for each parameter as defined in EN 13848-1 and measured by any track geometry measurement system as defined in EN 13848-2, EN 13848-3 and EN 13848-4.
This standard covers the following topics:
-   immediate action limits;
-   recommendations on tolerance levels for isolated defects;
-   relative importance of parameters with respect to the vehicle behaviours;
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      25 pages
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SIST
SIST EN 16432-2:2017(Main)
Railway applications - Ballastless track systems - Part 2: System design, subsystems and components
EN 16432-2:2017

This part of prEN 16432 covers system and subsystem design and component configuration for ballastless track system.
The system and subsystem design requirements are assigned from the general requirements of prEN 16432 1:2014. Where applicable existing subsystem or component requirements from other standards are to be referenced.

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      115 pages
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SIST
SIST EN 13803:2017(Main)
Railway applications - Track - Track alignment design parameters - Track gauges 1435 mm and wider
EN 13803:2017

The purpose of this European standard is to specify rules and limits for track alignment design parameters, including alignments within switches and crossings. Several of these limits are functions of speed. Alternatively, for a given track alignment, it specifies rules and limits that determine permissible speed.
This European Standard applies to track gauges 1435 mm and wider with speeds up to 360 km/h. Informative Annex A describes the conversion rules which should be applied for tracks with ...view more

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SIST
SIST EN 16725:2017(Main)
Railway applications - Track - Restoration and repair of manganese crossings
EN 16725:2016

This European Standard specifies restoration of cast austenitic manganese steel for fixed crossings and cradles for crossings with movable parts, designed to be flash butt welded or bolted to adjoining rails manufactured according to EN 15689. The standard also applies to flash welded leg ends of austenitic manganese steel crossings and the associated tri-metal zone.
This standard describes the approval systems for consumables and procedures used in manual metal arc and flux cored metal deposit...view more

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SIST
SIST EN 16431:2014(Main)
Railway applications - Track - Hollow sleepers and bearers
EN 16431:2014

EN 16431 defines technical criteria and control procedures which are satisfied by hollow sleepers and bearers used in ballasted track with Vignole rails. The hollow sleepers and bearers designed for ballasted track can also be used in ballastless track. In this case, the requirements are defined by the customer.

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SIST EN 13848-4:2012(Main)
Railway applications - Track - Track geometry quality - Part 4: Measuring systems - Manual and lightweight devices
EN 13848-4:2011

This part of the European Standard specifies the minimum requirements that shall be met by measuring systems fitted on track recording trolleys and manually operated devices to give an evaluation of track geometry quality when using one or more of the parameters described in EN 13848-1. It sets out the acceptable differences from EN 13848-1 when using track recording trolleys and manually operated devices to measure track geometry.
It applies to all track geometry measuring systems fitted to tr...view more

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SIST EN 13232-2:2004+A1:2012(Main)
Railway applications - Track - Switches and crossings - Part 2: Requirements for geometric design
EN 13232-2:2003+A1:2011

This part of this European Standard covers the following subjects:
- geometric design principles for wheel guidance;
-  definition of basic limits of supply;
- applied forces and their adequate support;
- tolerance levels.
These are illustrated herein by application to a turnout. The main switch and crossing components are represented in turnouts and the principles used in turnouts apply equally to more complex layouts.

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SIST EN 13848-3:2009(Main)
Railway applications - Track - Track geometry quality - Part 3: Measuring systems - Track construction and maintenance machines
EN 13848-3:2009

This European Standard specifies the minimum requirements that shall be met by measuring systems fitted on track construction and maintenance machines to give an evaluation of track geometry quality when measuring one or more of the parameters described in EN 13848-1. It does not seek to prescribe which parameters are to be measured, since these depend upon the measuring capabilities of the machine and the purpose for which the machine or its measuring system is used.
It also sets out the accep...view more

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SIST EN 13848-6:2014/kFprA1:2020(Amendment)
Railway applications - Track - Track geometry quality - Part 6: Characterisation of track geometry quality
EN 13848-6:2014/FprA1
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      7 pages
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oSIST prEN 13803-1:2006
Railway applications - Track - Track alignment design parameters - Track gauges 1435 mm and wider - Part 1: Plain line
prEN 13803-1

This European Standard specifies the track alignment design parameters, the rules and the values that shall be used to determine the maximum operating speed for both new and existing lines. Alternatively, for a given specified speed, it defines the track alignment design parameters either for a new line or an upgraded line.

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oSIST prEN 13848-3:2020(Main)
Railway applications - Track - Track geometry quality - Part 3: Measuring systems - Track construction and maintenance machines
prEN 13848-3

This European Standard specifies the minimum requirements for measuring systems fitted on Track Construction and Maintenance Machines to give an evaluation of track geometry quality when they measure any one or more of the parameters described in EN 13848-1.
This European Standard also gives the acceptable differences from EN 13848-1 when using chord measurements.
This European Standard does not specify:
- requirements for vehicle acceptance;
- criteria for track works acceptance;
- requir...view more

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oSIST prEN 16843:2015(Main)
Railway applications - Infrastructure - Mechanical requirements for joints in running rails
prEN 16843

This European Standard deals with mechanical rail joints for flat bottom rails 46 kg/m and over.
The scope of this standard is:
-   to establish requirements for insulated and non-insulated rail joints, for stressed rail (continuous welded rail, CWR) and unstressed rail (jointed track);
-   to define mechanical and electrical requirements for type approval and for acceptance of insulated rail joints which are manufactured in a factory (prefab construction) as well as assembled on-site (site const...view more

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