Open Access
Subscription Access
Comparison of Laser Cladding And Thermal Spraying Techniques Used For Wear Control
Wear determines the service life of the components/equipment during the different applications. Wear is the progressive damage, involving material loss, which occurs on the surface of a component as result of its motion relative to the adjacent working parts. Because of wear there are the economic and money related misfortunes because of drop in proficiency, constrained shutdowns and repair are massive. Occurrence of wear depends upon many methods like geometry of the surface, applied load, the rolling and sliding velocities environmental conditions, mechanical, thermal, chemical and metallurgical properties and physical, thermal and chemical properties of the lubricant. So it is necessary to control the wear of the components. There are different methods/ techniques are available to control the wear. In this study, compare the laser cladding and thermal spraying process, their principle, process parameters to control the wear of components that are used in diverse applications.
Keywords
Wear, Laser Cladding, Thermal Spraying, Applications.
User
Font Size
Information
- Molian P.A. and Sudarshan T.S. “Surface Modification Technologies.” – An Engineer‟s Guide. New York: Marcel Dekker. 1989.
- Cahn R.W., Haasan P. and Kramer E.J. “Materials Science and Technology”. Weinheim: VCH 1989, p. 111.
- Rehn L.E., Picraux S.T. and Wiedersich H. “Surface Alloying by Ion, Electron and Laser Beams”. Metals Park: ASM. 1987. pp. 1.
- Richter, K.H., S. Nowotny, “Laser cladding of titanium alloy Ti6242 to restore damaged blades.” In proceedings of international conference on application of lasers and electro-optics. 2004.
- C.P. Paul, A. Jain, P. Ganesh, J. Negi, A.K. Nath, “Laser rapid manufacturing of Colmonoy-6 components, Laser and Optics in Engineering.” 44 (10) pp. 1096–1109.2006.
- J. Przybylowicz, J. Kusinski, “Laser cladding and erosive wear of Co–Mo–Cr–Si coatings.” Surface and Coatings Technology 125 pp.13–18. 2002.
- K.F. Tam, F.T. Cheng, H.C. Man, “Cavitation‟s erosion behavior of laser-clad Ni–Cr–Fe–WC on brass.” Materials Research Bulletin 37 pp. 1341–1351.2002.
- D.-W. Zhang, T.C. Lei, J.-G. Zhang, J.-H. Ouyang, “The effects of heat treatment on microstructure and erosion properties of laser surface-clad Ni-base alloy.” Surface and Coatings Technology 115 pp. 176–183. 1996.
- L. Wang, “Erosion testing of laser-cladding layers by abrasive water-jetting.” Journal of Materials Processing Technology 168 pp. 321–326. 2006.
- Mandeep Dhanda, Barun Haldar, P. Saha., “Development and Characterization of Hard and Wear Resistant MMC Coating on Ti-6Al-4V Substrate by Laser Cladding,” International Conference on Materials Processing and Characterization, pp. 1226-1232, 2014.
- D. Gupta, B. L. Mordike, S. Shariff, G. Padmanabhan, I. Manna and J. Dutta Majumdar, “Laser Surface Cladding of EN19 Steel with Stellite 6 for Improved Wear Resistance.” Lasers in Eng., Vol. 19, pp. 317–330, 2010.
- Girish R. Desale, C.P. Paul, B.K. Gandhic, S.C. Jain, “Erosion wear behavior of laser clad surfaces of low carbon austenitic steel.” Wear 266, pp. 975-987, 2009.
- C.P. Paul, S.K. Mishra, P. Tiwari, L.M. Kukreja, “Solid-Particle Erosion Behavior of WC/Ni Composite Clad layers with Different Contents of WC Particles.” Optics & Laser Technology 50, pp.155-162, 2013.
- Manna I., Majumdar J.D, Ramesh C.B., Nayak S. and Dahotre N.B., “Laser surface cladding of Fe–B–C, Fe–B–Si and Fe–B-C–Si–Al–C on plain carbon steel.” Surface & Coatings Technology 201(1–2), pp.434–440, 2006.
- L. St. Georges, “Development and characterization of composite Ni-Cr + WC laser cladding.” Wear 263, pp. 562-566, 2007.
- L. Wang, “Erosion testing of laser-cladding layers by abrasive water-jetting.” Journal of Materials Processing Technology 168 pp. 321–326. 2006.
- L. Wang, “Erosion testing of laser-cladding layers by abrasive water-jetting.” Journal of Materials Processing Technology 168 pp. 321–326. 2006.
- Zita Izdinska, Ahmed Nasher, Karol Izdinsky. “The structure and Properties of Composite Laser Clad Coatings with Ni Based Matrix with WC Particles.” Materials Engineering, vol.17, No.2, pp. 1-5, 2010.
- H. Tan, Z. Luo, Y. Li, F. Yan, R. Duan, Y. Huang, “Effect of strengthening particles on the dry sliding wear behavior of Al2O3-M7C3/Fe metal matrix composite coating produced by laser cladding.” Wear 324-325, pp. 36-44, 2015.
- S. Das, A.K. Verma, “A Brief Overview on Cladding Techniques With a Reference to Weld Cladding using Gas Metal Arc Welding,” A Technical Magagine, Vol-X, pp. 13-16, 2011.
- C. C. Berndt and R. McPherson: Mater. Sci. Res., 1981, 14, 619–62.
- Pradeep Kumar Barthwal, Deepti Rawat and Amit Joshi “Carbide Coatings on H- Hot Working Steel by HVOF Process “International Journal of Mechanical Engineering and Research. ISSN No. 2249-0019, Volume 3,Number 4 (2013), pp. 327-334.
- Maria Oksa, Erja Turumen, Tomi Suhoen, “Optimization and Characterization of HVOF sprayed Coatings.” Techniques, materials and application. ISSN 2079-6412.
- Harpreet Singh, Khushdeep Goyal, Deepak Kumar Goyal. “Slurry Erosion Behaviour of Plasma Thermal Sprayed (50%) WC-Co-Cr and Ni-Cr-B-Si Coatings of Different Thickness on CA6NM Turbine Steel Material.” Manufacturing Science and Technology 2(4): 81-92, 2014.
Abstract Views: 167
PDF Views: 0