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CHAPTER – 5
TRACK MONITORING & TOLERANCES
*********************
PART – ‘A’ - TRACK MONITORING
501 General - Inspections by individuals on foot or by trolley, locomotive, and rear vehicle
enable the Permanent Way staff to carry out assessment of the quality of track based
on their expertise and experience. For objective assessment of track quality, the
following mechanized means are being used on Indian Railways.
(1) Track Recording Car
(2) Oscillation Monitoring System
(3) Oscillograph Car
502 Track Recording Cars: - These enable collection of discrete values of various track
geometry Parameters on selected sampling interval under loaded condition. The
TRCs work on inertial principle of measurements for various track geometry
Parameters except Gauge.
(1) Inertial principle of measurements:-
TRC measures lateral and vertical accelerations with the help of accelerometers
placed at coach floor / bogie frame. The acceleration values obtained are integrated
twice to get loci of the location of accelerometers. The relative displacements between
rail and accelerometer locations are obtained from displacement transducers
(LVDT)/LASER based contactless sensors. The loci of accelerometers are combined
with relative displacement between accelerometers and rail obtained from sensors to
derive the vertical and lateral profile of the rail. These measurements are further
corrected for roll and yaw motion of coach using gyroscopes.
(2) Gauge Measurement:-
For measurement of Gauge Parameter, the following types of Gauge sensors are in
use on Indian Railways:
(a) Contact gauge sensor (used up to maximum recording speed of 100 Kmph); and
(b) Contactless laser based gauge sensor (used up to maximum recording speed of
160 Kmph);
503 Quick Calibration, Recording and Speed:-
(1) Before start of any run (day light hours only), it should be ensured that quick calibration
of the system has been done satisfactorily.
(2) The track recording car specials must have a through run over the section between
two major stations and run through main lines only at all stations.
(3) The track parameter recording is independent of speed above a minimum speed of
20 Kmph (needed for inertial platform); however, the Track Recording Cars should be
run at the maximum speed of Section/TRC for objective assessment of ride quality in
terms of acceleration peaks and Ride Index. Any recording done below speed of 20
Kmph is taken as "Non-recorded".
504 Arrangements for Running Track Recording Car:-
(1) On receipt of monthly program for running of TRCs on various zonal railways issued
by RDSO, Zonal Railways shall arrange for suitable power, crew, consumables and
path for an uninterrupted run of the Track Recording Car as per RDSO program.

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(2) ADENs & SSEs headquartered at originating / halting stations shall coordinate for
proper placement, watering, charging, and other assistance for the TRC special.
505 Officials to accompany the TRC run:-
Sectional Sr. DEN/DEN, ADEN and SSE/P.Way (In-charge) shall accompany TRC
run in their sections.
Sectional Sr. DEN/DEN shall ensure proper liaison in the control office for suitable
path and monitoring of the TRC special.
The soft copy of TRC recording shall be provided by RDSO officials and the same
shall be uploaded in TMS.
506 Frequency of Track Recording:-
The frequency of Track geometry monitoring by TRC is as under:
Sl. No. Speed Slab Frequency
i) Routes with speeds above 130 Kmph Once in 2 months
Routes with speeds above 110 Kmph and up to 130
ii) Once in 3 months
Kmph
Routes with speeds above 100 Kmph and up to 110
iii) Once in 4 months
Kmph
iv) Routes with speeds up to 100 Kmph Once in 6 months

507 Track Geometry Parameters Recorded by TRC: - The following track geometry
parameters are measured by the Track Recording Cars:
(1) Unevenness of left & right rail (on two selected chords)
(2) Alignment of left & right rail (on two selected chords)
(3) Twist (calculated on two selected bases)
(4) Variation of gauge over nominal gauge, which is 1676 mm for IR.
(5) Vertical and lateral accelerations on coach floor above bogie pivot, in test vehicles
(Locomotive)
(6) Curve details (only in contactless laser based TRCs)
(7) Speed of recording
508 Chords for Measurements/Report:-
Both types of TRCs have the ability to measure and calculate track geometry
parameters on two user selectable chords/bases in the range of 2 to 20 metres. The
shorter one is termed as short chord/base and the other one as long chord/base
(denoted by suffix 1 & 2 respectively). The length of short and long chord/base for
track monitoring are as under:
SN Parameter Short Chord / Base (m) Long Chord/ Base (m)
1 Unevenness 9.0 (UN-1) 18.0 (UN-2)
2 Alignment 9.0 (AL-1) 15.0 (AL-2)
3 Twist 3.0 (TW-1) 15.0 (TW-2)
509 Reporting of TRC Results:-
While recording the track parameters, on-line reports are generated by TRC for each
block of 200 metre and for the entire kilometre:
(1) Details of every block of 200 m:-
(a) Standard Deviation values of Unevenness of left & right rail on short and long chord
(b) Standard Deviation value of Alignment of left & right rail on short and long chord
(c) Average of Variation of gauge over nominal gauge (1676 mm)

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 (d) Maintenance Instructions corresponding to Gauge (MI-G) based on Need Based
Maintenance Limit (NBML) and Urgent Maintenance Limit (UML) values for
average/mean gauge
(e) Average speed
(f) Vertical and Lateral Ride Index on coach floor above bogie pivot (accelerometer
location) and in test vehicle (Locomotive) in Laser Contact less TRCs
(g) Parameter Index for Unevenness (UNI-1 & UNI-2) and Alignment (ALI-1 & ALI-2)
on short and long chords.
(h) Track Quality Index (TQI) on both short and long chord i.e., TQI-S and TQI-L
(i) Composite Track Quality Index for Sections having Speed > 100 Kmph (TQI-C)
(j) Maintenance Instructions corresponding to SD (MI-SD) based on PML and NBML
for Unevenness and Alignment
(2) Results reported for whole kilometre:
(a) Total number of peaks above Need Based Maintenance Limits (NBML) on long
chord and short chord for Alignment and Unevenness.
(b) Total number of peaks above Need Based Maintenance Limits (NBML) and Urgent
Maintenance Limit (UML) on short base for Twist.
(c) Total number of peaks above Need Based Maintenance Limits (NBML) and Urgent
Maintenance Limit (UML) for Gauge.
(d) Total number of peaks above Urgent Maintenance Limit (UML) for vertical and
lateral acceleration.
(e) Parameter Indices for Unevenness (UNI-1 & UNI-2) and Alignment (ALI-1 & ALI-
2) on short and long chord.
(f) Track Quality Index (TQI) on both short and long chord i.e. TQI-S and TQI-L.
(g) Composite Track Quality Index for sections having speed > 100 Kmph (TQI-C).
(h) Average speed.
(i) Vertical and Lateral Ride Index on coach floor above bogie pivot (at accelerometer
location).
(j) 10 highest peak values of alignment and unevenness Parameters with location on
long and short chord out of the maximum peak values measured for each 50 m
block of a kilometer.
(k) 10 highest peak values of Twist Parameter with location on short base out of the
maximum peak values measured for each 50 m block of a kilometer.
(l)10 highest peak values of variation of gauge (over nominal gauge of 1676 mm)
parameter with location out of the maximum peak values measured for each 50 m
block of a kilometer.
(m) 10 highest peak values of vertical and lateral accelerations with location out of the
maximum peak values measured for each 50 m block of a kilometer.
(n) 10 maximum peak values of Twist on short base exceeding Urgent Maintenance
Limits (UML) with location.
(o) 10 maximum peak values of Gauge (over nominal gauge of 1676 mm) exceeding
Urgent Maintenance Limits (UML) with location.
(p) 10 maximum peak values of vertical and lateral accelerations exceeding Urgent
Maintenance Limits (UML) with location.
(3) SMS alerts would be generated for cases of exceedances of UML during TRC
recordings. These alerts would be sent through TMS to concern JE/P.Way,
SSE/P.Way, ADEN and sectional DEN/Sr.DEN along with Sr.DEN/Coordination.

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510 Action to be Taken After Track Recording by TRC:-
(1) Spots/blocks requiring attention as per Parameter limits, and acceleration peak limits
set as UML should be noted by the ADEN and SSE/P.Way accompanying the car for
giving requisite action/attentions as per Para 521.
(2) Track recording results should be uploaded in TMS by SSE/In-charge of TRC after
end of days recording and analyzed in the Divisional Office.
(a) A comparison of the records of each section shall be made with the previous run.
(b) Analysis shall be done for identifying the blocks/locations needing Planned, Need
Based and Urgent attention for onward transmission to concerned maintenance
units.
(c) Analysis of data to generate various reports/charts using TRC offline software or
through TMS to take up the maintenance and precautionary action as detailed in
Para 523. Alerts with respect to UML will also be generated by TMS after uploading
of data in TMS.
(d) Maintenance units shall take action for maintenance as detailed in Para 523.
511 Parameter Indices:-
For characterization of the Track Quality, the Parameter wise Indices viz. unevenness
index (UNI-1 and UNI-2) and Alignment Index (ALI-1 and ALI-2) on short and long
chord for each block of 200 m are computed as under:
(1) Alignment Index:
(a) On Short Chord (ALI1):
((𝑆𝐷 −(𝑆𝐷𝑁𝑇𝐿−𝐴𝐿−1))
−[((1.3×𝑆𝐷𝑀−𝐴𝐴𝐿−1 ]
𝐴𝐿𝐼1 = 100 × 𝑒 𝑁𝐵𝑀𝐿−𝐴𝐿−1−(𝑆𝐷𝑁𝑇𝐿−𝐴𝐿−1))

(b) On Long Chord (ALI2):
((𝑆𝐷 −(𝑆𝐷𝑁𝑇𝐿−𝐴𝐿−2))
−[((1.3×𝑆𝐷𝑀−𝐴𝐴𝐿−2 ]
𝐴𝐿𝐼2 = 100 × 𝑒 𝑁𝐵𝑀𝐿−𝐴𝐿−2−(𝑆𝐷𝑁𝑇𝐿−𝐴𝐿−2))

(2) Unevenness Index:
(a) On Short Chord (UNI1):
((𝑆𝐷 −(𝑆𝐷𝑁𝑇𝐿−𝑈𝑁−1))
−[((1.3×𝑆𝐷𝑀−𝐴𝑈𝑁−1 ]
𝑈𝑁𝐼1 = 100 × 𝑒 𝑁𝐵𝑀𝐿−𝑈𝑁−1−(𝑆𝐷𝑁𝑇𝐿−𝑈𝑁−1))

(b) On Long Chord (UNI2):
((𝑆𝐷 −(𝑆𝐷𝑁𝑇𝐿−𝑈𝑁−2))
−[((1.3×𝑆𝐷𝑀−𝐴𝑈𝑁−2 ]
𝑈𝑁𝐼2 = 100 × 𝑒 𝑁𝐵𝑀𝐿−𝑈𝑁−2−(𝑆𝐷𝑁𝑇𝐿−𝑈𝑁−2))

Where,
ALI1 Alignment Index on short chord i.e. on 9.0 metre chord
ALI2 Alignment Index on long chord i.e. on 15.0 metre chord
UNI1 Unevenness Index on short chord i.e. on 9.0 metre chord
UNI2 Unevenness Index on long chord i.e. on 18.0 metre chord
SDM-AAL-1 Average of measured SD value of alignment of left and right rail on short chord
SDNTL-AL-1 SD value of New Track Limit of alignment on short chord
SDNBML-AL-1 SD value of Need Based Maintenance Limit of alignment on short chord
SDM-AAL-2 Average of measured SD value of alignment of left and right rail on long chord
SDNTL-AL-2 SD value of New Track Limit of alignment on long chord
SDNBML-AL-2 SD Value of Need Based Maintenance Limit of alignment on long chord
SDM-AUN-1 Average of measured SD value of unevenness of left and right rail on short chord
SDNTL-UN-1 SD value of New Track Limit of unevenness of short chord
SDNBML-UN-1 SD value of Need Based Maintenance limit of unevenness on short chord
SDM-AUN-1 Average of measured SD value of alignment of left and right rail on short chord
SDNTL-UN-2 SD value of New Track Limit of unevenness on long chord
SDNBML-UN-2 SD value of Need Based Maintenance Limit of unevenness on long chord

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512 Track Quality Index (TQI):-
(1) TQI is prescribed for overall assessment of track quality for IR routes categorized in
four different speed bands. The TQI could be worked out by expressions given in (a)
and (b) below using indices for short chord (for all speeds) as well as long chord (for
speeds more than 100 Kmph) respectively. Additionally, a composite TQI can also be
calculated by expressions given in (c) below.
(a) On Short Chord
𝑈𝑁𝐼1 + 𝐴𝐿𝐼1
𝑇𝑄𝐼𝑆 = ( )
2
(b) On Long Chord (For Speed >100 Kmph only)
𝑈𝑁𝐼2 + 𝐴𝐿𝐼2
𝑇𝑄𝐼𝐿 = ( )
2
(c) Composite Track Quality Index (For Speed >100 Kmph only)
𝑈𝑁𝐼1 + 𝐴𝐿𝐼1 + 𝑈𝑁𝐼2 + 𝐴𝐿𝐼2
𝑇𝑄𝐼𝐶 = ( )
4
(2) The TQI values based on the above expressions are only an indicator; the actual
maintenance of track shall be planned on the basis of SD values and peak values of
different track parameters in comparison to respective benchmark values.
513 Oscillation Monitoring System:-
This equipment measures the track performance by measurement of vehicles
response in terms of vertical and lateral accelerations. The real time output of the
equipment is in the form of value of peaks exceeding the limiting value, their locations,
and Ride index. These values are available for both vertical and lateral accelerations.
(1) The OMS equipment used for oscillation monitoring uses a portable accelerometer
and transducers converting the oscillations into electrical signals, which can be
recorded electronically and processed. The OMS equipment used should preferably
be GPS enabled.
(2) (i) The OMS equipment shall be kept in the rearmost coach of the fastest train in the
section or in a dedicated coach, which shall be attached, as last vehicle, to the fastest
train in the section.
(ii) The OMS equipment shall be kept on the coach floor (as close to the bogie pivot
as possible) on the free end of the coach.
(3) The stored data should be uploaded in TMS for analysis and maintenance planning.
514 Frequency of OMS Recording:-
(1) On routes having speed above 100 Kmph – Once every month
(2) Others routes – Once in two months
515 Recording of Defects:-
To assess the track quality, vertical and lateral acceleration peaks exceeding the values as
below are to be considered.
(1) On routes having speed above 110 Kmph (on A & B routes) – Greater than 0.15 g.
(2) Others routes having speed up to 110 Kmph – Greater than 0.2 g.

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516 Classification of Track Quality:-
For judging the track quality, the following criteria could be used (average total number of
peaks per km) to classify a continuous section for track quality (SSE/P Way’s
jurisdiction/Subdivision/division):

Track Quality
Very Good Good Average
Section Speed

Speed Above 110 Kmph Less than 1.0 1-2 Greater than 2

Others Less than 1.5 1.5-3.0 Greater than 3

517 Oscillograph Car:-
(1) Brief Description of the Car –
The Oscillograph cars monitor riding quality of track at Maximum Sanctioned Speed
of the section with the help of an accelerometer that digitally records the accelerations.
The vertical and lateral accelerations at the vehicle floor level are recorded by keeping
the accelerometer as close to the bogie pivots as possible.
(2) Frequency of Recording – The frequency of recording shall be as under:
(a) On routes having speed above 110 Kmph and up to 130 Kmph – Once in 6 months
(b) On routes having speed above 130 Kmph and up to 160 Kmph – Once in 4 months
(3) Analysis of Oscillograph Car results –
Vertical and lateral accelerations above the threshold values, mentioned hereunder,
are separately counted.
(a) Loco Cab floor:
In vertical mode - 0.20 g for all locos (Diesel and Electric)
In Lateral mode - 0.20 g for diesel and electric locos (with double stage
suspension)
In Lateral & Vertical mode- 0.30 g (for Locos with single stage suspension)
(b) Passenger Coach Floor:
In vertical and lateral modes - 0.15 g.
(4) Reports and Interpretation of Results –
The km wise analysis and results are given in Annexure - 5/1 under the following
heads (In addition the Speed grouping table) on the basis of the number of peaks
counted above threshold values for a particular locomotive:
(a) Station Yards
(b) Other than Station Yards (Isolated locations)
(c) Active continuous stretches
518 Use of Oscillograph Car Recordings:-
(1) Threshold values of acceleration are given in Para 517 (3). The track should be
attended to at all such locations where peaks above threshold values are reported so
as to ensure good riding.
(2) Efforts should be made not only to check the extent of defect but also to find out
whether it is occurring in an active patch (defined as per Statement A, B and C of
Oscillograph Results)as it may lead to excessive oscillations.

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 PART – ‘B’
TRACK TOLERANCES
519 General - The track deteriorates structurally and geometrical Parameters de-grade
with the passage of traffic resulting in decline in ride quality. The rate of deterioration of the
track depends on the quality of track at that point in time. Various limits for track geometrical
Parameters are laid down to assess the ride quality of track and to plan necessary
maintenance interventions during the service life.
520 New Track Tolerances:- (Back to Para 716)
(1) Utmost care should be taken during linking of track to ensure good quality of work. As
a good practice, the laying standards of track geometry for track laid with new Material
are as under: (To be measured three months after speed is raised to normal).
(2) For measurements recorded by TRC.
(a) SD Values for Unevenness and Alignment:
Sl. Speed upto 100 Speed above 100 Kmph; and
Parameter
No. Kmph up to 160 Kmph
1. UN-1 2.0 mm 1.4 mm
2. UN-2 - 1.9 mm
3. AL-1 1.4 mm 1.1 mm
4. AL-2 - 1.3 mm
(b) Peak Values for Unevenness and Alignment:
Sl. Speed upto Speed above 100 Kmph; and
Parameter
No. 100 Kmph upto 160 Kmph
1. UN-1 6.0 mm 4.0 mm
2. UN-2 - 6.0 mm
3. AL-1 4.0 mm 3.0 mm
4. AL-2 - 4.0 mm
(3) For measurements recorded in floating conditions: (Back to Para 429, 715, 716)
(a) Gauge:
For new track and through renewal of track, following tolerances would be applicable-
(i) For straight including curves of radius up to 350 m and more -5 mm to +3 mm
(ii) For curves of radius less than 350 m Up to +10 mm
(b) Other parameters:
S.
Parameter Description of Measurement Value
No
1 Gauge Sleeper to sleeper variation 2 mm
Expansion Over average gap worked out by recording 20
2 ± 2 mm
gap successive gaps
Low joints not permitted High joints not more than + 2 mm
3 Joints
Squareness of joints on straight ±10 mm
Spacing of
4 With respect to theoretical spacing ± 20 mm
sleepers
5 Cross level To be recorded on every 4th sleeper ± 3 mm
6 On straight on 10 m Chord ± 2 mm
Variation over theoretical versines: (On 20 m Chord).
7
Alignment On curves of Radius more than 600 m 5 mm
Variation over theoretical versines: (On 20 m Chord).
8
On curves of Radius less than 600 m 10 mm
Longitudinal Variation with reference to approved longitudinal
9 50 mm
level sections.

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 521 Planning of Maintenance – (Back to Para 510) For planning/taking up
maintenance of track in respect of Alignment, Unevenness, Gauge and Twist
Parameters based on TRC results, track shall be categorized under following three
categories:
(1) Track requiring planned maintenance
(2) Track requiring need based maintenance
(3) Track requiring urgent maintenance
(a) Planned Maintenance Limit (PML) –
(i) These tolerances provide a guidance to plan through maintenance of track in a
complete block section. These Limits, if exceeded, require that track geometry
condition be analysed and considered for planned maintenance operations.
(ii) The Planned Maintenance Limits (PML) for Unevenness and Alignment are
based on Standard Deviation (SD) values, as these Parameters affect Ride
quality.
(iii) Peak based limits are not stipulated for unevenness and alignment for planned
maintenance as the planned maintenance is to be carried out by track machines
for which the planning will be based on standard deviation values only.
(b) Need Based Maintenance Limit (NBML) –
(i) These limits are defined for applying timely correction before the defects size
grows to the level of Urgent Maintenance Limit (UML); requiring traffic slow
down. Allowable time for attention to defects exceeding the NBML would
depend upon the magnitude of the defects and various factors affecting track
geometry deterioration such as sectional speed, axle load, traffic volume etc.
(ii) The Need Based Maintenance Limits (NBML) are based on Standard Deviation
and peak values for Unevenness and Alignment. For Gauge and Twist, these
limits are based on peak values.
(c) Urgent Maintenance Limits (UML) –
(i) These limits are so specified that upon their exceedances, the permitted speed
should be reduced; which can be restored only after attending the track.
(ii) These are laid in terms of acceleration limits on comfort consideration and peak
values for Gauge and Twist.
522 Maintenance Limits for Different Speed Bands: Based on TRC and OMS
results, various limits of PML NBML and UML for Unevenness, Alignment, Gauge and
Twist Parameters for different speed bands are stipulated as under:
(1) For Speeds up to 100 Kmph:
Planned Need Based Urgent
SN Parameter Maintenance Maintenance Limit Maintenance
Limit (PML) (NBML) Limit (UML)
1 Unevenness
SD-6.8 mm
1.1 UN-1 SD-5.0 mm
Peak-20 mm Vertical and
1.2 UN-2 - - lateral
2 Alignment acceleration
SD-4.9 mm peak of 0.30 g
2.1 AL-1 SD-3.3 mm
Peak -15 mm
2.2 AL-2 - -
3 Gauge

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3.1 Mean gauge over 200 m section over nominal gauge
-10 mm to + 12
(a) Straight - -8 mm to +10 mm
mm
-7 mm to +17
(b) Curve with radius 440 m or more - -5 mm to +14 mm
mm
Curve with radius less than 440 m
-7 mm to +20
(c) (Permissible speed as per relevant - -5 mm to +18 mm
mm
Para of IRPWM)
3.2 Isolated defects – Nominal track gauge to peak value
-12 mm to + 15
(a) Straight - -10 mm to +12 mm
mm
-11 mm to +20
(b) Curve with radius 440 m or more - -7 mm to +17 mm
mm
Curve with radius less than 440 m
-8 mm to +25
(c) (Permissible speed as per relevant - -6 mm to +22 mm
mm
Para of IRPWM)
4 Twist (TW-1) 5 mm/m 7 mm/m
Note: In case of curve, the limits for alignment prescribed are above average versine.
(2) For Speeds above 100 Kmph and up to 110 Kmph:
Planned Need Based
Urgent Maintenance
SN Parameter Maintenance Maintenance Limit
Limit (UML)
Limit (PML) (NBML)
1 Unevenness
SD-5.5 mm
1.1 UN-1 SD-3.8 mm
Peak-17 mm
SD-7.5 mm
1.2 UN-2 SD-5.4 mm Vertical and lateral
Peak-23 mm
acceleration peak of 0.30
2 Alignment
g
SD-3.9 mm
2.1 AL-1 SD-2.5 mm
Peak -12 mm
SD-6.7 mm
2.2 AL-2 SD-4.1 mm
Peak-20 mm
3 Gauge
3.1 Mean gauge over 200 m section over nominal gauge
(a) Straight - -8 mm to +10 mm -10 mm to + 12 mm
Curve with radius 440
(b) - -5 mm to +14 mm -7 mm to +17 mm
m or more
Curve with radius
less than 440 m
(c) (Permissible speed - -5 mm to +18 mm -7 mm to +20 mm
as per relevant Para
of IRPWM)
3.2 Isolated defects – Nominal track gauge to peak value
(a) Straight - -10 mm to +12 mm -12 mm to + 15 mm
Curve with radius 440
(b) - -7 mm to +17 mm -11 mm to +20 mm
m or more
Curve with radius
less than 440 m
(c) (Permissible speed - -6 mm to +22 mm -8 mm to +25 mm
as per relevant Para
of IRPWM)
4 Twist (TW-1) 4 mm/m 7 mm/m
Note: In case of curve, the limits for alignment prescribed are above average versine.

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(3) For Speeds above 110 Kmph and up to 130 Kmph:
Planned Need Based Urgent
SN Parameter Maintenance Maintenance Limit Maintenance Limit
Limit (PML) (NBML) (UML)
1 Unevenness
SD-4.9 mm
1.1 UN-1 SD-3.3 mm
Peak-15 mm
SD-7.4 mm
1.2 UN-2 SD-5.1 mm Vertical and lateral
Peak-22 mm
acceleration peak of
2 Alignment
0.25 g
SD-3.6 mm
2.1 AL-1 SD-2.5 mm
Peak -11 mm
SD-5.3 mm
2.2 AL-2 SD-3.5 mm
Peak-16 mm
3 Gauge
3.1 Mean gauge over 200 m section over nominal gauge
(a) Straight - -8 mm to +10 mm -10 mm to + 12 mm
Curve with radius 440 m or
(b) - -5 mm to +14 mm -7 mm to +17 mm
more
Curve with radius less than
440 m (Permissible speed
(c) - -5 mm to +18 mm -7 mm to +20 mm
as per relevant Para of
IRPWM)
3.2 Isolated defects – Nominal track gauge to peak value
(a) Straight - -10 mm to +12 mm -12 mm to + 15 mm
Curve with radius 440 m or
(b) - -7 mm to +17 mm -11 mm to +20 mm
more
Curve with radius less than
440 m (Permissible speed
(c) - -6 mm to +22 mm -8 mm to +25 mm
as per relevant Para of
IRPWM)
4 Twist (TW-1) 4 mm/m 6 mm/m
Note: In case of curve, the limits for alignment prescribed are above average versine.

(4) For Speeds above 130 Kmph and up to 160 Kmph:
Planned Need Based
Urgent Maintenance Limit
SN Parameter Maintenance Maintenance
(UML)
Limit (PML) Limit (NBML)
Vertical and lateral
1 Unevenness
acceleration peak of 0.20 g
SD-4.4 mm
1.1 UN-1 SD-2.9 mm
Peak-13 mm
SD-6.6 mm
1.2 UN-2 SD-4.4 mm
Peak-20 mm
2 Alignment
SD-3.6 mm
2.1 AL-1 SD-1.9 mm
Peak -11 mm
SD-4.9 mm
2.2 AL-2 SD-2.5 mm
Peak-15 mm
3 Gauge
3.1 Mean gauge over 200 m section over nominal gauge
-6 mm to +10
(a) Straight - -8 mm to + 12 mm
mm
Curve with radius 440 m or -5 mm to +13
(b) - -7 mm to +15 mm
more mm
Curve with radius less than 440
-5 mm to +18
(c) m (Permissible speed as per - -7 mm to +20 mm
mm
relevant Para of IRPWM)

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3.2 Isolated defects – Nominal track gauge to peak value
-8 mm to +12
(a) Straight - -10 mm to + 15 mm
mm
Curve with radius 440 m or -6 mm to +16
(b) - -9 mm to +20 mm
more mm
Curve with radius less than 440
-6 mm to +22
(c) m (Permissible speed as per - -8 mm to +25 mm
mm
relevant Para of IRPWM)
4 Twist (TW-1) 3.5 mm/m 5 mm/m
Note: In case of curve, the limits for alignment prescribed are above average versine.

523 Action to be Taken Based on TRC Results: (Back to Para 510, 602, 604)
(1) Action to be taken on exceedance of UML:
Spots/blocks exceeding track Parameter limits, and acceleration peak limits set as
UML should be noted by the ADEN and SSE accompanying the TRC and suitable
speed restrictions have to be immediately imposed, which shall be relaxed only after
suitable attention/maintenance of track at concerned location. Similar action should
be taken on exceedance of UML during OMS run also.
(2) Action to be taken on exceedance of NBML:
(i) The blocks requiring Need Based Maintenance on the basis of laid down SD based
NBML and isolated spots on the basis of laid down Peak based NBML shall be
identified using offline software or through TMS. All such blocks and isolated spots
should be attended within a reasonable time of TRC run so that good ride quality
is maintained and the track geometry does not exceed the UML. The reasonable
time would be different for different sections depending upon the magnitude of
defects, cause of the defect, traffic density of the section, maximum permissible
speed of the section etc. The officials responsible for maintenance at various levels
have to plan the deployment of maintenance resources keeping in view the relative
priority and availability of maintenance resources.
(ii) Gap between two successive NBML locations in block sections/yards should also
be tamped while attending these NBML locations if this gap is less than/equal to
200 m. (1 TRC block).
(iii) While attending an NBML block in the yard in which any portion of the turnout falls,
the entire turnout should be tamped.
(3) Planning of through tamping based on PML:

(i) The blocks requiring planned maintenance on the basis of laid down SD based
PML shall be identified for block sections and for yards separately using off line
software or through TMS.

The block section for any main line should be treated from block (TRC block of 200
m) of last SEJ of preceding station to block of first SEJ of current station. Both the
blocks containing above SEJ would be excluded from the block section on any
particular line (UP & DOWN separately).

Similarly, the yard would be treated from a block of 200 m containing 1st SEJ to
block of last SEJ on any particular line (UP & DOWN separately) of the concerned
station/yard.

In case of CWR through yards, the yard should be taken as 50 metres beyond
farthest SRJ/ Back of crossing of turnout from centre of station yard on either side
on any particular line (UP and DN separately).

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 (ii) The block section should be planned for through tamping if the percentage of
blocks exceeding PML is more than 40%.
(iii) Yards should be planned for through tamping if the percentage of blocks exceeding
PML is more than 50%.
Tamping of turnouts and straight of all other passenger loop lines should be
planned on condition basis by ADEN while machines are deployed in yard for need
based or planned attention of main line of yards.
(4) Maintenance action when track recording is not done

(i) For sections in which TRC has not run for more than one year and the last tamping
has been done more than two years before, the need based maintenance and
urgent maintenance should continue to be carried out based on OMS recording
and other inspections.
(ii) Sectional Sr.DEN/DEN should periodically (at suitable intervals not greater than
six months) review the need for maintenance of track of each such block sections
/ yards based on OMS recording , other inspections and other maintenance
considerations.
(iii) Through tamping of such block sections / yards, if considered necessary based on
OMS recording and other considerations, should be proposed for inclusion in
planning of Through Tamping by Sr.DEN / DEN of section through Sr.DEN /
Coordination of Division for approval of CTE.
524 Realignment Criteria for Curves:- (Back to Para 418)
The running over a curve depends not only on the difference between the actual
versine and the designed versine but also on the station to station variation of the
actual versine values, which determine the rate of change of lateral acceleration, on
which depends the riding comfort.
Sl. No. Speed on curve Limits of Station to Station Variation of Versine (mm)
10 mm
160 Kmph and up
1 (15 mm for speed of 110 Kmph); or
to 110 Kmph
20% of average Versine on circular portion, whichever is more.
Below 110 Kmph 20 mm; or
2
and up to 50 Kmph 20% of average Versine on circular portion, whichever is more.
40 mm; or
3 Below 50 Kmph
20% of average Versine on circular portion, whichever is more.
In case exceedances of the above Limit is observed during inspection, local
adjustment may be resorted to in cases where the variation of versine between
adjacent stations is only at a few locations, at the earliest possible. If more than 20%
stations are having versine variations above the limits prescribed, complete
realignment of curve should be planned within a month.
525 Track Parameters in Floating Conditions:- (Back to Para 429, Ann. 6/9)
The Gauge and Twist values for manual measurement in floating conditions are as under:
(1) Gauge:
While it is desirable to maintain correct gauge, variation in gauge may be there due
to age and condition of the rail, sleepers, and fastenings. The limits of gauge as per
measurement in floating condition, for the guidance of the engineering officials
regarding condition of track from passenger comfort perspective shall be as given
below, provided that generally a uniform gauge can be maintained over long lengths.

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 a) On straight Track -6 mm to +6 mm
b) On curves with radius 440 m or more -6 mm to +15 mm
c) On curves with radius less than 440 m Up to + 20 mm
In case of exceedances of these limits, the results of last TRC/OMS shall be analyzed
for planning suitable maintenance action.
(2) Twist:
It is desirable to maintain the track geometry for a comfortable ride at sectional speed.
The limits of twists as per measurement in floating condition, for guidance of the
engineering officials regarding condition of track from passenger comfort perspective
shall be as under; (to be calculated on a base of 3.0 m)
(i) On straight and curve track, other than transition - 3.5 mm/m
(ii) On transition of curve- 2.1 mm/m (Local defects above Designed value)
In case of exceedances of above limits, the results of last TRC/OMS shall be analyzed
for planning suitable maintenance action.
526 Track Parameters for Low Speeds:-
For guidance of field officials, following track Parameters are stipulated in floating
conditions, for maintenance of tracks where speeds are low such as worksite, yard
line, etc.
Peak value of UN Peak value of twist
Speed Permissible gauge
(on 3.6 m chord) (on 3.0 m chord)
(in Kmph) range
in mm in mm
Up to 45 22 18 -10 to +27 mm
Up to 30 24 21 -10 to +27 mm
Up to 15 33 25 -12 to +27 mm
527 Stability of Trains Against Derailment: The stability of trains against derailment
depends upon several factors such as track geometry, vehicle characteristics and
state of their maintenance and speed of the particular vehicle at relevant point of time
etc. Rail wheel interaction is, thus, a complex phenomenon and, therefore, safety
tolerance for track alone cannot be prescribed in Isolation. Accordingly, safety
tolerances for maintenance of track have not been prescribed on Indian Railways.
Each derailment case, therefore, needs careful examination of all available evidence,
in respect of track, rolling stock, speed and other factors considered relevant, to arrive
at the cause. The provisions and tolerances mentioned herein before and elsewhere
in this Manual are with a view to maintain track geometry for good riding comfort
considered and deviation from these maintenance Parameters should not be
considered alone for cause of accident without examining all evidences mentioned
above.

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 Annexure - 5/1 (Para 517)
Typical Statement prepared in connection with an Oscillograph car run are given below
(Statement 'A' to 'C')
STATEMENT 'A'
Total length of Section: 232 kms Section: BBQ—KZJ
Length recorded: 185 kms Loco No....................
Date of recording: 22nd March 2019 Type of Loco.............
Oscillograph Results Station Yards (Peaks above Threshold values)
SN Name of Yard Speed in Vertical Lateral remarks
and Location Kmph acceleration g acceleration g
1 SRUR 100.. 0.26
FP-2 100
2 MCI 100 0.22
TP-1 100 0.22
TP-2
3 PPZ 105 0.20
FP-1 0.20
FP-2
4 BGSF 110 0.22
324/10-11
5 OPL 100 0.26
343/5-
6 HSP 100 0.20
TP-1
STATEMENT 'B'
Date of recording 22nd March 2018 Section: BPQ—KZJ (km 367- km 135
Loco No.:................................ Length recorded: 185 km
Type of Loco:............... Total length: 232 km
Oscillograph Results in Places other than Station Yards
Isolated Locations (Peaks above Threshold value)
SN Location Speed in Kmph Vertical Lateral Remark
acceleration g acceleration g
1 146/1-2 100 0.28 Curve
2 148/15-16 110 0.28 Br
3 149/7-8 110 0.28
4 149/7-8 110 0.35 Br
5 151/8-9 110 0.24
6 151/8-9 110 0.32
7 151/11-12 105 0.24
8 160/7-8 110 0.22 Curve
9 164/9-10 110 0.24
10 168/1-2 100 And so on 0.30
STATEMENT 'C'
Date of recording 22nd March 2018 Section: BPQ—KZJ (km 367- km 135
Loco No.:................................ Length recorded: 185 km
Type of Loco:............... Total length: 232 km
Oscillograph Results Active Continuous Stretches
S Km Distan Speed Active Total Maxim No. of No. of Rema
N From To ce in in in No of um peaks peaks rks
km Kmph mode peaks value between above
above 0.20 g. 0.30 g
0.20 g 0.30 g
Nil

Note – If there are on an average more than 10 peaks above the threshold value per km, the length
may be included in this statement.

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