Access the full text.
Sign up today, get DeepDyve free for 14 days.
M. Zhong, Wenjin Liu, K. Yao, J. Goussain, C. Mayer, A. Becker (2002)
Microstructural evolution in high power laser cladding of Stellite 6+ WC layersSurface & Coatings Technology, 157
C. Courbon, A. Sova, F. Valiorgue, H. Pascal, J. Sijobert, G. Kermouche, P. Bertrand, J. Rech (2019)
Near surface transformations of stainless steel cold spray and laser cladding deposits after turning and ball-burnishingSurface and Coatings Technology
A. Plati, J. Tan, I. Golosnoy, R. Persoons, K. van Acker, T. Clyne (2006)
Residual Stress Generation during Laser Cladding of Steel with a Particulate Metal Matrix CompositeAdvanced Engineering Materials, 8
Guojian Xu, M. Kutsuna, M. Rathod (2006)
Cladding of Stellite-6 and vanadium carbide on carbon steel using a yttrium–aluminum–garnet laser robot systemJournal of Laser Applications, 18
R. Jeshvaghani, M. Shamanian, M. Jaberzadeh (2011)
Enhancement of wear resistance of ductile iron surface alloyed by stellite 6Materials & Design, 32
Martis Aldrine, N. Babu, S. Kumar (2017)
Evaluation of Induced Residual Stresses due to Low Plasticity Burnishing through Finite Element SimulationMaterials Today: Proceedings, 4
Hans Gedda (2004)
Laser cladding : an experimental and theoretical investigation
W. Lin, Chien-Hui Chen (2006)
Characteristics of thin surface layers of cobalt-based alloys deposited by laser claddingSurface & Coatings Technology, 200
A. Gholipour, M. Shamanian, F. Ashrafizadeh (2011)
Microstructure and wear behavior of stellite 6 cladding on 17-4 PH stainless steelJournal of Alloys and Compounds, 509
B. Huang, Y. Kaynak, Y. Sun, I. Jawahir (2015)
Surface Layer Modification by Cryogenic Burnishing of Al 7050-T7451 Alloy and Validation with FEM-based Burnishing Model☆Procedia CIRP, 31
윤진국, 신종철, 이덕열, 김재수, 도정만 (2003)
Effect of molybdenum on the microstructure and wear resistance of cobalt-base stellite hardfacing alloys
Li-na Zhu, Bin-shi Xu, Hai-dou Wang, Chengbiao Wang (2012)
Microstructure and nanoindentation measurement of residual stress in Fe-based coating by laser claddingJournal of Materials Science, 47
M. Praniewicz, T. Feldhausen, S. Kersten, J. Berez, E. Jost, T. Kurfess, C. Saldana (2019)
INTEGRATED HARDFACING OF STELLITE-6 USING HYBRID MANUFACTURING PROCESS
J. Caudill, B. Huang, C. Arvin, J. Schoop, K. Meyer, I. Jawahir (2014)
Enhancing the Surface Integrity of Ti-6Al-4V Alloy through Cryogenic Burnishing☆Procedia CIRP, 13
A. Hassan, A. Al-Bsharat (1996)
Influence of burnishing process on surface roughness, hardness, and microstructure of some non-ferrous metalsWear, 199
O. Pereira, Adrián Rodríguez, A. Fernández-Valdivielso, J. Barreiro, A. Fernández-Abia, L. López-de-Lacalle (2015)
Cryogenic Hard Turning of ASP23 Steel Using Carbon DioxideProcedia Engineering, 132
I. Jawahir, E. Brinksmeier, R. M'Saoubi, D. Aspinwall, J. Outeiro, D. Meyer, D. Umbrello, A. Jayal (2011)
Surface integrity in material removal processes: Recent advancesCirp Annals-manufacturing Technology, 60
J. Shin, J. Doh, Jinsik Yoon, Dokyol Lee, Jae-Soo Kim (2003)
Effect of molybdenum on the microstructure and wear resistance of cobalt-base Stellite hardfacing alloysSurface & Coatings Technology, 166
W. Marsden (2012)
I and J
O. Pereira, Alejandro Rodríguez, A. Fernández-Abia, J. Barreiro, L. Lacalle (2016)
Cryogenic and minimum quantity lubrication for an eco-efficiency turning of AISI 304Journal of Cleaner Production, 139
D. Bartkowski, G. Kinal (2016)
Microstructure and wear resistance of Stellite-6/WC MMC coatings produced by laser cladding using Yb:YAG disk laserInternational Journal of Refractory Metals & Hard Materials, 58
J. Radziejewska (2012)
Application of Laser-Burnishing Treatment for Improvement of Surface Layer Properties
M. Nasr, E. Ng, M. Elbestawi (2007)
Effects of workpiece thermal properties on machining-induced residual stresses - thermal softening and conductivityProceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture, 221
A. D’Oliveira, Paulo Silva, R. Vilar (2002)
Microstructural features of consecutive layers of Stellite 6 deposited by laser claddingSurface & Coatings Technology, 153
Adrián Rodríguez, A. Calleja, L. Lacalle, O. Pereira, H. González, G. Urbikain, J. Laye (2019)
Burnishing of FSW Aluminum Al–Cu–Li ComponentsMetals
S. Sun, Y. Durandet, M. Brandt (2005)
Parametric investigation of pulsed Nd:YAG laser cladding of stellite 6 on stainless steelSurface & Coatings Technology, 194
G. Wang, Jiazi Zhang, Ruiying Shu, Sen Yang (2019)
High temperature wear resistance and thermal fatigue behavior of Stellite-6/WC coatings produced by laser cladding with Co-coated WC powderInternational Journal of Refractory Metals and Hard Materials
J. Ju, Yang Zhou, M. Kang, Jun Wang (2018)
Optimization of Process Parameters, Microstructure, and Properties of Laser Cladding Fe-Based Alloy on 42CrMo Steel RollerMaterials, 11
B. Sachin, S. Narendranath, D. Chakradhar (2018)
Effect of Cryogenic Diamond Burnishing on Residual Stress and Microhardness of 17-4 PH Stainless SteelMaterials Today: Proceedings, 5
Peirong Zhang, Zhanqiang Liu (2015)
Effect of sequential turning and burnishing on the surface integrity of Cr–Ni-based stainless steel formed by laser cladding processSurface & Coatings Technology, 276
Y. Pei, J. Hosson (2000)
Functionally graded materials produced by laser claddingActa Materialia, 48
V. Kuzucu, M. Ceylan, H. Çelik, I. Aksoy (1997)
Microstructure and phase analyses of Stellite 6 plus 6 wt.% Mo alloyJournal of Materials Processing Technology, 69
Y. Birol (2010)
High temperature sliding wear behaviour of Inconel 617 and Stellite 6 alloysWear, 269
B. Huanga, Y. Kaynakb, Y. Suna, I. Jawahira (2015)
Surface Layer Modification by Cryogenic Burnishing of Al 7050-T7451 Alloy and Validation with FEM-based Burnishing Model
A. Frenk, W. Kurz (1994)
Microstructural effects on the sliding wear resistance of a cobalt-based alloyWear, 174
Disha Gupta, B. Mordike, S. Shariff, G. Padmanabhan, I. Manna, J. Majumdar (2010)
Laser Surface Cladding of EN19 Steel with Stellite 6 for Improved Wear Resistance
(2011)
Polar chart for properties comparison under different posttreatment sequences Journal of Materials Engineering and Performance Material Removal Processes: Recent Advances
Alain Kusmoko, D. Dunne, Huijun Li (2016)
Measuring Dilution and Wear for Laser Cladding of Stellite 6 Produced on a P91 Steel Substrate using Two Different Heat Inputs, 70
U. Shirsat, Basant Ahuja, M. Dhuttargaon (2017)
Effect of Burnishing Parameters on Surface FinishJournal of The Institution of Engineers (India): Series C, 98
S. Thamizhmnaii, B. Omar, S. Saparudin, S. Hasan, A. Act (2008)
Surface roughness investigation and hardness by burnishing on titanium alloyJournal of achievements in materials and manufacturing engineering, 28
Publisher's Note Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations
The influence of modern additive manufacturing methods, especially from the direct energy deposition (DED) processes to the coat-like finished components, is crucial under present industrial circumstances. DED induces several traits like enhanced mechanical, thermal properties in shorter lead time, which extend their adaptation for diverse applications including aerospace and automobile industries. Among the several DED processes, laser cladding has been a prospect that explores various capabilities of improving the wear resistance of cobalt-chromium (Co-Cr)-based alloys. Rather than fabricating the complete component using expensive alloys, laser cladding has paved an approach to deposit particles possessing superior qualities over the conventional material. This research work attempts to evaluate the surface integrity of SS420 when cladded with Stellite 6. The vertical face milling is executed on the cladded component surface to facilitate either low-plasticity burnishing (LPB) or cryogenic burnishing (CB) as sequential post-treatment processes. The effects of these post-treatments on the surface and subsurface microhardness, surface topography and residual stress profiles are elaborated. Increased surface and subsurface microhardness, as well as improved residual stress profiles, are observed with CB over LPB-processed specimen samples.
Journal of Materials Engineering and Performance – Springer Journals
Published: Oct 6, 2020
Read and print from thousands of top scholarly journals.
Already have an account? Log in
Bookmark this article. You can see your Bookmarks on your DeepDyve Library.
To save an article, log in first, or sign up for a DeepDyve account if you don’t already have one.
Copy and paste the desired citation format or use the link below to download a file formatted for EndNote
Access the full text.
Sign up today, get DeepDyve free for 14 days.
All DeepDyve websites use cookies to improve your online experience. They were placed on your computer when you launched this website. You can change your cookie settings through your browser.