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NTIS 바로가기Physics procedia, v.83, 2016년, pp.706 - 715
Song, B. , Hussain, T. , Voisey, K.T.
The increasing use of biomass as a fuel is leading to higher fireside corrosion of the heat exchangers in boilers due to the high chlorine and alkali metal content in the fuel. Laser cladding of Ni50Cr is a promising technique to enhance fireside corrosion resistance of boiler tubes from this aggres...
Energy Procedia Abang 40 304 2013 10.1016/j.egypro.2013.08.035 Fireside corrosion of superheater materials under oxy-coal firing conditions
10.1016/j.surfcoat.2005.08.143 Al-Fadhli, H., J. Stokes, M. Hashmi and B. Yilbas (2006). “The erosion-corrosion behaviour of high velocity oxy-fuel (HVOF) thermally sprayed inconel-625 coatings on different metallic surfaces.” Surface and Coatings Technology 200(20): 5782-5788.
Journal of Nuclear materials Bhaduri 334 2 109 2004 10.1016/j.jnucmat.2004.05.005 Selection of hardfacing material for components of the Indian Prototype Fast Breeder Reactor
Corrosion Bluni 52 3 213 1996 10.5006/1.3292116 Effects of thermal spray coating composition and microstructure on coating response and substrate protection at high temperatures
Bryers, R.W. (1991). Incinerating municipal and industrial waste.
Wear Desale 266 9 975 2009 10.1016/j.wear.2008.12.043 Erosion wear behavior of laser clad surfaces of low carbon austenitic steel
10.1016/j.corsci.2011.03.007 Jonsson, T., N. Folkeson, J.-E. Svensson, L.-G. Johansson and M. Halvarsson (2011). “An ESEM in situ investigation of initial stages of the KCl induced high temperature corrosion of a Fe-2.25 Cr-1Mo steel at 400C.” Corrosion Science 53(6): 2233-2246.
10.1002/maco.200503919 Kalivodova, J., D. Baxter, M. Schutze and V. Rohr (2005). “Gaseous corrosion of alloys and novel coatings in simulated environments for coal, waste and biomass boilers.” Materials and Corrosion 56(12): 882-889.
Kawahara, Y. (2013). Chapter 10.3 - Application of High-Temperature Corrosion-Resistant Ceramics and Coatings under Aggressive Corrosion Environment in Waste-To-Energy Boilers. Handbook of Advanced Ceramics (Second Edition). S. Somiya. Oxford, Academic Press: 807-836.
10.1016/S0257-8972(03)00348-7 Kim, H.-J., S.-Y. Hwang, C.-H. Lee and P. Juvanon (2003). “Assessment of wear performance of flame sprayed and fused Ni-based coatings.” Surface and Coatings Technology 172(2): 262-269.
Oxidation of Metals Leyens 54 5-6 401 2000 10.1023/A:1004634400479 Hot Corrosion of an EB-PVD Thermal-Barrier Coating System at 950°C
10.1016/j.surfcoat.2013.06.048 Li, X.-z., H.-c. Li, Y.-t. Wang and B. Li (2013). “Investigations on the behavior of laser cladding Ni-Cr-Mo alloy coating on TP347H stainless steel tube in HCl rich environment.” Surface and Coatings Technology 232: 627-639.
10.1021/ef9000924 Lith, S.C. v., F.J. Frandsen, M. Montgomery, T. Vilhelmsen and S. A. Jensen (2009). “Lab-scale Investigation of Deposit-induced Chlorine Corrosion of Superheater Materials under Simulated Biomass-firing Conditions. Part 1: Exposure at 560° C†.” Energy & Fuels 23(7): 3457-3468.
10.1016/S0378-3820(97)00062-3 Michelsen, H.P., F. Frandsen, K. Dam-Johansen and O. H. Larsen (1998). “Deposition and high temperature corrosion in a 10 MW straw fired boiler.” Fuel Processing Technology 54(1-3): 95-108.
10.1016/S0360-1285(00)00003-4 Nielsen, H.P., F.J. Frandsen, K. Dam-Johansen and L. L. Baxter (2000). “The implications of chlorine-associated corrosion on the operation of biomass-fired boilers.” Progress in Energy and Combustion Science 26(3): 283-298.
Fuel Processing Technology Oksa 125 236 2014 10.1016/j.fuproc.2014.04.006 Nickel-based HVOF coatings promoting high temperature corrosion resistance of biomass-fired power plant boilers
Schneider, M.F. (1998). Laser cladding with powder, effect of some machining parameters on clad properties, Universiteit Twente.
10.1016/j.jmatprotec.2005.06.058 Sidhu, H.S., B.S. Sidhu and S. Prakash (2006). “Mechanical and microstructural properties of HVOF sprayed WC-Co and Cr3C2-NiCr coatings on the boiler tube steels using LPG as the fuel gas.” Journal of Materials Processing Technology 171(1): 77-82.
Toyserkani 2004 Laser cladding
10.1016/S0257-8972(02)00472-3 Uusitalo, M., P. Vuoristo and T. Mantyla (2002). “High temperature corrosion of coatings and boiler steels in reducing chlorine-containing atmosphere.” Surface and Coatings Technology 161(2): 275-285.
10.1016/S0921-5093(02)00537-3 Uusitalo, M., P. Vuoristo and T. Mantyla (2003). “High temperature corrosion of coatings and boiler steels in oxidizing chlorine-containing atmosphere.” Materials Science and Engineering: A 346(1): 168-177.
10.1016/j.corsci.2003.09.026 Uusitalo, M.A., P.M. J. Vuoristo and T. A. Mantyla (2004). “High temperature corrosion of coatings and boiler steels below chlorine-containing salt deposits.” Corrosion Science 46(6): 1311-1331.
10.1016/j.ijpvp.2007.06.011 Vaillant, J., B. Vandenberghe, B. Hahn, H. Heuser and C. Jochum (2008). “T/P23, 24, 911 and 92: New grades for advanced coal-fired power plants-Properties and experience.” International Journal of Pressure Vessels and Piping 85(1): 38-46.
Materials Letters Wu 141 207 2015 10.1016/j.matlet.2014.11.058 Dilution characteristics of ultrasonic assisted laser clad yttria-stabilized zirconia coating
Surface and Coatings technology Wu 79 1 200 1996 10.1016/0257-8972(95)02452-2 Critical state of laser cladding with powder auto-feeding
10.4028/www.scientific.net/AMR.549.785 Zhang, K., X.M. Zhang and W. J. Liu (2012). Influences of processing parameters on dilution ratio of laser cladding layer during laser metal deposition shaping. Advanced Materials Research, Trans Tech Publ.
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