Rolling contact fatigue (RCF), amongst other mechanisms of wear, between railway track and train wheel ensures that periodic replacement of worn track and other key components such as switches must be undertaken. The cost associated with repairing/replacing track is significant. This places a financial burden upon the rail network provider, creates a significant carbon footprint associated with remanufacture of track and also interruption to train services. It is proposed that laser cladding, when deployed strategically can reduce the costs associated with replacing worn track by enhancing the longevity of new rail components (pre-service) and also for the repair of sections of track which are prone to excessive wear (in-service). This will lead to a cheaper, more reliable and sustainable rail network. This paper details a series of investigations undertaken to laser clad with premium wear resistant alloys (Colmonoy 88, Stellite 6, Maraging steel, and Hadfield steel) to much cheaper rail material substrates. The methodology for process optimization is presented and the specimens are characterized for suitability. Laser cladding is demonstrated to be a viable solution to repair worn track and a deposition process for actual track sections is presented.

1.
D. F
Cannon
,
K.O
Edel
,
SL
Grassie
,
K
Sawley
Rail defects: An overview
(
2003
)
Fatigue & Fracture of Eng. Mat.& Struct
.
26
, Issue
10
, pages
865
886
https://doi.org/10.1046/j.1460-2695.2003.00693.x
Google Scholar
Crossref
Search ADS
 
2.
F.C.R
Hernández
,
N.G.
Demas
,
K.
Gonzales
,
A.A.
Polycarpou
 (
2011
)
Correlation between laboratory ball-on-disk and full-scale rail performance tests-Wear
270
,
479
491
Google Scholar
 
3.
Hernández
F.C.
,
Demas
N.G.
,
Davis
D.D
,
Polycarpou
A.A
,
Maal
,
L.
 (
2007
)
Mechanical properties and wear performance of premium rail steels
,
Wear
263
(
1–6
)
766
772
.
https://doi.org/10.1016/j.wear.2006.12.021
Google Scholar
Crossref
Search ADS
 
4.
Clayton
P
,
Jin
N.
 (
1996
)
Unlubricated sliding and rolling/sliding wear behavior of continuously cooled, low/medium carbon Bainitic steels Wear
200
,
74
82
Google Scholar
 
5.
European Standard, final draft prEN 13674-1
(
November
2002
)
Railway applications -Track-Rail, Part 1
:
Vignole railway rails 46kg/m and above
6.
Girschm
G.
,
Jörg
A
,
Schoech
W.
Managing rail life to match performance and cut costs
(
August
2010
) –
Railway Gazette Intl
. –Pg
45
48
Google Scholar
 
7.
Mok
S. H.
,
Bi
G.
,
Folkes
J.
,
Pashby
I.
,
Segal
J.
 (
2008
)
Deposition of Ti–6Al–4V using a high power diode laser and wire
,
Investigation on the mechanical properties, Surf. and Coatings Tech
,
4613
4619
https://doi.org/10.1016/j.surfcoat.2008.03.028
Google Scholar
 
8.
Amado
J.M
,
Tobar
M.J
,
Alvarez
J.C
,
Yanez
A
, (
2009
)
Laser cladding of tungsten carbides hardfacing alloys for the mining and mineral industry
,
App. Surf. Science
255
,
5553
5556
https://doi.org/10.1016/j.apsusc.2008.07.198
Google Scholar
Crossref
Search ADS
 
9.
Farayibi
P.K.
,
Folkes
J.
,
Clare
A.
,
Oyelola
O.
 (
2011
)
Cladding of pre-blended Ti-6Al-4V and WC powder for wear resistant applications
,
Surface and Coatings Technology
, In Press, Accepted Manuscript.
Google Scholar
Crossref
Search ADS
 
10.
Qian
Ming
,
Lim
L.C.
,
Chen
Z.D.
 (
1998
)
Laser cladding of nickel-based hardfacing alloys Surface and Coatings Technology
106
,
174
182
Google Scholar
 
11.
Gholipour
,
A.
Shamanian
,
M.
Ashrafizadeh
F.
 (
2011
)
Microstructure and wear behavior of Stellite 6 cladding on 17-4 PH stainless steel
,
Journal of Alloys and Compounds
509
4905
4909
https://doi.org/10.1016/j.jallcom.2010.09.216
Google Scholar
Crossref
Search ADS
 
12.
Pelletier
J.M.
,
Sauger
E.
,
Gachon
Y.
,
Vannes
A.B.
 (
1999
)
Mechanical and tribological properties of Hadfield steel coatings manufactured by laser processing Journal of Mat. Science
34
,
2955
2969
Google Scholar
 
13.
Harzallah
R.
,
Mouftiez
A
,
Felder
E.
,
Hariri
S
,
Maujean
J P
 (
2010
)
Rolling contact fatigue of Hadfield steel X120Mn12 Wear
269
,
647
654
Google Scholar
 
14.
Lim
L.C.
,
Qian
Ming
,
Chen
Z.D.
(
1998
)
Microstructures of laser-clad nickel-based hardfacing alloys, Surf. and Coatings Tech
.
106
,
183
192
Google Scholar
 
15.
D’Oliveira Ana Sofia
,
C.M.
,
Sérgio
,
P. C.
,
Vilar
R.C.
 (
2002
)
Microstructural features of consecutive layers of Stellite 6 deposited bylaser cladding Surf. and Coatings Tech
.
153
203
209
Google Scholar
 
16.
Zhonga
M
,
Liu
W.
, .
Yao
K
,
Goussain
,
J. C
Mayer
C.
.,
Becker
A.
 (
2002
)
Microstructural evolution in high power laser cladding of Stellite 6+WC layers Surf. and Coa.Tech
.
157
,
128
137
Google Scholar
 
17.
Subhi
A.D.
,
Abdulrazaq
O.A.
 (
2007
)
Phase Transformations of Hadfield Manganese Steels, Eng. & Technology
, Vol.
25
, No.
6
,
Google Scholar
 
18.
Shamantha
C.R.
,
Narayanan
R.
,
Iyer
K.J.L.
,
Radhakrishnan
V.M.
,
Seshadri
S.K.
,
Sundararajan
S.
,
Sundaresan
S.
 (
2000
)
Microstructural changes during welding and subsequent heat treatment of 18Ni (250-grade) maraging steel
,
Mat. Sci. and Engr
287
43
51
https://doi.org/10.1016/S0921-5093(00)00838-8
Google Scholar
Crossref
Search ADS
 
19.
Floreen
,
S.
 (
1968
)
Metall. Rev
.
13
,
115
Google Scholar
Crossref
Search ADS
 
This content is only available via PDF.
© 2011 Laser Institute of America.
2011
Laser Institute of America
You do not currently have access to this content.