Laser cladding of the nickel alloy Hastalloy, C276 (Ni 59-Mo16-Cr 15.5- Fe-5-W 3.7) on a stainless steel 316L substrate was investigated. The objective was to establish the feasibility of the deposition of the highly corrosion resistant C-276 alloy on the stainless steel substrate as a means of removing the need for machining parts from solid C-276 alloy in chemical storage and reaction vessel applications. Cladding was carried out with a 2kW carbon dioxide laser using the blown powder method.

The process was found to be effective with a high quality clad being deposited on the stainless steel substrate. Microstructural studies indicated that the clad was devoid of cracking, has a low level of porosity and has a microstructure favourable for good corrosion resistance. The quality and nature of the metallurgical bond between the clad layer and the substrate and the degree of dilution were investigated in terms of the laser cladding parameters (powder flow rate, laser power, substrate traverse rate, degree of track overlap). Characterisation was carried out by optical microscopy and SEM.

Topics
Solid state lasers, Alloys, Corrosion, Materials synthesis and processing, Optical microscopy
1.
Marsico
,
T.
,
Denney
,
P.
,
ICALEO ’97 Short Course
;
Principles Of High Powered Laser Cladding For Industrial Applications
2.
Powell
,
J.
,
Henry
,
P.S.
,
Steen
,
W.M.
,
Surface Cladding with Pre-placed powder beds
.
1985
,
Surface Engineering with Lasers
Google Scholar
 
3.
Saunders
,
S.R.J.
,
Ansari
,
A.A.
,
Bennett
,
M.J
,
Tuson
,
A.T.
,
Fellowes
,
F.C.J.
,
Steen
,
W.M.
,
New corrosion resistant ceramic coatings by laser processing
.
1988
,
Laser Technologies in Industry
Google Scholar
 
4.
Pelletier
,
J.M.
,et al.,
Hadfield steel coatings on low carbon steel by laser cladding
,
Materials Science & Engineering
A202
,
1995
, pp
142
147
https://doi.org/10.1016/0921-5093(95)09792-9
Google Scholar
Crossref
Search ADS
 
5.
Weerasinghe
,
V.
,
Steen
,
W.M.
,
Laser cladding by powder injection
.
1983
,
LIM 1 - Proceedings of the 1st International Conference on Lasers in Manufacturing
Google Scholar
 
6.
Takeda
,
T.
,
Laser Cladding with a Mixed Powder Feed
.
1984
,
ICALEO ’84
Google Scholar
Crossref
Search ADS
 
7.
Gremaud
,
M.
 et al.,
Laser Metal Forming: Process Fundamentals
,
Surface Engineering
1996
Vol.
12
No.3
https://doi.org/10.1179/sur.1996.12.3.251
Google Scholar
 
8.
Damborenea
,
J.
,
Vazquez
,
A.J.
,
Laser cladding of high temperature coatings
,
Journal of Materials Science
28
,
1993
, pp
4775
4780
https://doi.org/10.1007/BF00414271
Google Scholar
Crossref
Search ADS
 
9.
Monson
,
P.J.E.
,
Steen
,
W.M.
 and
West
,
D.R.F.
 Rapid Alloy Scanning by Variable Composition Laser Cladding, in
LAMP ’87
.
1987
.
Osaka
:
High Temperature Society of Japan
.
Google Scholar
 
10.
Weerasinghe
,
V.M.
,
Laser Cladding of Flat Plates
.
1984
,
University of London
Google Scholar
 
11.
Fearon
,
E.
, Unpublished Results,
The University Of Liverpool
,
U.K
.
1999
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