Self-propagating high-temperature synthesis for the deposition of thermal-sprayed coatings

A. G. Merzhanov and I. P. Borovinskii, Self-Propagating High-Temperature Synthesis of Inorganic Compounds [in Russian], Moscow (1970), p. 150. A. G. Merzhanov, V. M. Shkiro, and I. P. Borovinskaya, A Method to Synthesize Refractory Inorganic Compounds [in Russian], Inventor’s Certificate No. 255221 USSR, Otkryt. Izobret., No. 10 (1971). E. A. Levashov, A. S. Rogachev, V. I. Yukhvid, and I. P. Borovinskaya, Physical, Chemical, and Technological Fundamentals of Self-Propagating High-Temperature Synthesis [in Russian], BINOM, Moscow (1999), p. 176. V. I. Itin and J. S. Naiborodenko, High-Temperature Synthesis of Intermetallic Compounds [in Russian], Izd. Tomsk. Univ., Tomsk (1989), p. 214. Yu. Borisov and A. Borisova, “Application of self-propagating high-temperature synthesis in thermal spraying technology,” in: Proc. of NTSC’93 (Anaheim, USA, June 7–11, 1993), ASM Int. (1993), pp. 139–144. V. I. Yukhvid, “SHS-metallurgy: Casting and surfacing,” in: Technology: Equipment, Materials, and Processes [in Russian], Moscow (1988), pp. 57–64. A. S. Shteinberg and V. B. Solomonov, “SHS-welding,” in: Technology: Equipment, Materials, and Processes [in Russian], Moscow (1988), pp. 75–85. Yu. Borisov, A. Borisova, and L. Shvedova, “Transition metal — nonmetallic refractory compound composite powders for thermal spraying,” in: Proc. of ITSC’86 (Montreal, Canada, September 8–12, 1986), Pergamon Press (1986), pp. 323–330. R. W. Smith, M. Mohanty, E. Shtessel, and A. Verstak, “Self propagating high temperature synthesis (SHS) of thermal spray powders,” in: Proc. of ITSC’95 (Kobe, Japan, May 22–26, 1995), High Temperature Soc. Jap. (1995), pp. 1121–1126. S. Yu. Sharivker and A. G. Merzhanov, SHS-Powders and Their Processing [in Russian], Chernogolovka (2000), p. 123. B. M. Vol’pe, V. V. Yevstigneev, I. V. Milyukov, et al., “SHS of disperse nickel aluminides and their protective coatings,” Fiz. Khim. Obrab. Mater., No. 1, 50–54 (1996). B. M. Vol’pe, V. V. Yevstigneev, I. V. Milyukov, et al., “SHS of disperse Ti-Al materials and their protective coatings,” Fiz. Khim. Obrab. Mater., No. 2, 73–79 (1995). P. A. Vitiaz, A. F. Ilyushchenko, T. L. Talako, et al., “High-speed gas-flame and detonation spraying of powders iron aluminides produced by self-propagating high-temperature synthesis,” in: Powder Metallurgy [in Russian], Issue 26, Minsk (2003), pp. 135–141. P. Lintula, J. Maunu, P. Vuoristo, and T. Mäntylä, “Production of TiC-based cermet and TiC-Al2O3 thermal spray powders by SHS,” in: 5th Int. Symp. Self-Propagating High-Temperature Synthesis (SHS-99), Moscow (1999), pp. 81–82. Yu. S. Borisov, B. A. Polyanin, I. N. Gorbatov, et al., “Production and properties of plasma-sprayed composite-powder coatings based on refractory compounds,” in: Abstracts of Sci.-Tech. Conf. on Composite Coatings [in Russian], Zhitomir (1981), pp. 24–25. A. G. Merzhanov, “SHS and powder metallurgy,” Adv. Powder Metallurgy Particulate Materials, 9, 341–368 (1992). I. N. Gorbatov, V. M. Shkiro, A. S. Terent’ev, et al., “Studying the properties of thermal-spray coatings and composite powders of titanium and chrome nickel-carbides,” Fiz. Khim. Obrab. Mater., No. 4, 102–106 (1991). I. N. Gorbatov, N. S. Il’chenko, A. S. Terent’ev, et al., “Effect of cladding double titanium-chrome carbide on the properties of plasma-sprayed coatings,” Fiz. Khim. Obrab. Mater., No. 3, 69–73 (1991). I. N. Gorbatov, A. D. Panasyuk, L. K. Shvedova, et al., “Thermal-sprayed composite-powder coatings based on titanium-chrome carbide,” Zashch. Pokryt. Metal., No. 25, 22–25 (1991). R. Radhakrihnan, S. B. Bhaduri, and C. N. Henager, “Reactive synthesis of Ti3SiC2-SiC composites,” in: 5th Int. Symp. on Self-Propagating High-Temperature Synthesis (SHS-99), Moscow (1997), p. 115. R. Knight, R. W. Smith, M. Mohanty, and E. A. Shtessel, “Low pressure plasma sprayed SHS MoSi2/SiC composite coatings,” in: Proc. of NTSC’95 (Houston, USA, September 11–15, 1995), ASM Int. (1995), pp. 743–748. P. Vitiaz, A. Belyaev, T. Talako, and V. Koval, “Plasma coating from synthesized composite powders,” in: Proc. of UTSC’99 (Düsseldorf, Germany, March 17–19, 1999), DVS-Verl., Düsseldorf (1999), pp. 293–295. P. A. Vitiaz, A. V. Belyaev, T. L. Talako, et al., “Structure and properties of thermal-sprayed composite coatings based on iron and nickel aluminides,” in: Proc. Int. Conf. on Laminated Composite Materials [in Russian], Volgograd (1998), pp. 159–161. E. D. Manoilo, T. L Talako, and A. V. Belyaev, “Gas-flame spraying of coatings of synthesized composite materials with solid-phase inclusions,” in: Powder Metallurgy [in Russian], Issue 21, Minsk (1998), pp. 69–73. K. G. Show, K. P. Mc. Coy, and J. A. Trogolo, “Fabrication of composite spray powders using reaction synthesis,” in: Proc. 7th NTSC (Boston, USA, June 20–24, 1994), ASM Int., Boston (1994), pp. 509–514. B. A. Veprik, M. V. Kurylev, V. A. Korenkov, and V. A. Mukazhanov, “Composite SHS-powder of aluminum oxide with chrome for a plasma spraying,” in: Abstracts Region. Conf. of Young Scientists and Experts of Research Organizations and Enterprises on Modern Materials in Mechanical Engineering [in Russian], Perm (1990), p. 14. B. A. Veprik, M. V. Kurylev, and V. A. Korenkov, “Structure of Cr-Al2O3 SHS-composite coatings,” in: Superhard and Composite Materials and Coatings and Their Application [in Russian], Kiev (1991), pp. 57–59. P. Vitiaz, A. Verstak, T. Azarova, and T. Talako, “Titanium carbide in wear resistant coatings,” in: Proc. of 9th NTSC (Cincinnati, USA, October 7–10, 1996), ASM Int., Cincinnati (1996), pp. 169–176. P. Vitiaz, T. Azarova, T. Talako, and A. Ilyuschenko, “Composite Fe/TiC powders for wear resistance coatings using plasma spray process,” in: Proc. 1st UTSC (Indianapolis, USA, September 15–18, 1997), ASM Int., Indianapolis (1997), pp. 131–139. A. Ilyuschenko, T. Azarova, B. Wielage, et al., “Microstructure-properties relationship,” in: Proc. UTSC (Düsseldorf, Germany, March 17–19, 1999), DVS-Verl., Düsseldorf (1999), pp. 35–38. B. Wielage, S. Steinhauser, T. Schnick, et al., “Thermal spraying of titanium carbide composite materials,” in: Proc. UTSC (Düsseldorf, Germany, March 17–19, 1999), DVS-Verl., Düsseldorf (1999), pp. 301–305. T. Azarova, P. Vitiaz, B. Wielage, et al., “Coherences between structure and properties of TiC containing thermal spraying coatings,” in: Proc. ITSC (Essen, Germany, March 4–6, 2002), DVS-Verl., Essen (2002), pp. 96–101. J. M. De Paco, J. Nutting, J. M. Guilemany, et al., “Structure-properties relationships of TiC-Ni-Ti and (Ti, W)C-Ni powders manufactured by the SHS process and the resultant HVOF-sprayed coatings,” in: Proc. UTSC (Cincinnati, USA, October 7–10, 1996), ASM Int., Cincinnati (1997), pp. 935–942. J. M. Guilemany, J. M. De Paco, J. R. Miguel, et al., “Corrosion resistance HVOF coatings based upon TiC + NiTi and(Ti, W) C + Ni,” in: Proc. 15th ITSC (Nice, France, May 25–29, 1995), ASM Int., Nice (1998), pp. 57–61. M. Mohanty and R. W. Smith, “Plasma spray processing of TiC-reinforced coatings for wear protection,” in: Proc. 8th NTSC (Houston, USA, September 11–15, 1995), ASM Int., Houston (1995), pp. 561–566. K. G. Shaw and J. H. Reinshagen, “Powder production of nickel and iron aluminides,” in: Proc. 4th Conf. on Nickel and Iron Aluminides, Cincinnati, USA (1996), pp. 1–11. A. Borisova, Yu. Borisov, A. Tunik, et al., “Thermal spraying of coatings containing sold lubricants,” in: Proc. UTSC’99 (Düsseldorf, Germany, March 17–19), DVS-Verl., Düsseldorf (1999), pp. 174–181. A. L. Borisova, L. I. Adeeva, A. Yu. Tunik, et al., “Structure and properties of thermal-sprayed coatings based on titanium carbide and titanium and chrome oxides with solid lubricants,” Avtomat. Svarka, No. 1, 22–27 (1999). M. T. Blatchford, A. J. Horlock, D. G. McCartney, et al., “Production and characterization of HVOF sprayed NiCr-TiC coatings using SHS powder feedstock,” in: Proc. 1st ITSC (Montreal, Canada, May 8–11, 2000), ASM Int., Montreal (2000), pp. 515–522. M. Vaisanen, P. Vuoristo, T. Mantyla, et al., “Microstructure and properties of TiC-CrNiMo SHS spray powder and thermally sprayed coating,” in: Proc. 1st ITSC (Montreal, Canada, May 8–11, 2000), ASM Int., Montreal (2000), pp. 429–434. T. A. Azarova, P. A. Vitiaz, B. Vilage, and Z. Shtankhaizer, “Structure and properties of composite materials based on titanium carbide with copper additives,” in: Powder Metallurgy [in Russian], Issue 25, Minsk (2002), pp. 85–89. B. Wielage, S. Steinhauser, T. Schrick, et al., “HVOF sprayed titanium carbide composite coatings for wear protection,” in: Proc. 1st ITSC (Montreal, Canada, May 8–11, 2000), ASM Int., Montreal (2000), pp. 537–542. A. Ilyuschenko, P. Vitiaz, A. Belyaev, and T. Talako, “SHS powder materials for protective coatings in power industry,” in: Proc. ITSC (Singapore, May 28–29, 2001), ASM Int., Singapore (2001), pp. 1299–1302. C. Bartuli and R. W. Smith, “Composition between Ni-Cr-40 vol.% TiC wear-resistant plasma sprayed coatings produced from self-propagating high-temperature synthesis and plasma densified powders,” J. Therm. Spray Techn., 3, No. 3, 335–342 (1996). A. Verstak, P. Vitiaz, E. Lugsheider, et al., “New coatings for elevated temperature erosion application,” in: Proc. TS’96 (Essen, Germany, March 6–8, 1996), DVS-Verl., Essen (1996), pp. 71–76. M. T. Blatchford, M. Jones, A. J. Horlock, et al., “Improvements in HVOF sprayed cermet coatings produced from SHS powders,” in: Proc. ITSC (Singapore, May 28–29, 2001), ASM Int., Singapore (2001), pp. 221–230. B. Q. Wang and K. Luer, “The relative erosion-corrosion resistance of commercial thermal sprayed coating in a simulated circulating fluidized bed combustor (CFBC) environment,” in: Proc. 7th NTSC (Boston, USA, June 20–24, 1994), ASM Int., Boston (1994), pp. 115–120. A. F. Ilyushchenko, A. B. Belyaev, T. L. Talako, et al., “SHS-powders for thermal-sprayed coatings subjected to the joint effect of corrosion and wear,” in: Powder Metallurgy [in Russian], Issue 23, Minsk, (2000), pp. 54–57. A. Borisova, Yu. Borisov, L. Adeeva, et al., “Heat-resistance of plasma spray coatings from composite powders produced by SHS-method,” in: Proc. 16th Int. Plansee Seminar (Austria, 30 May–3 June, 2005), RVF, Vienna (2005), pp. 434–447. A. F. Ilyushchenko, V. A. Okovityi, and A. I. Shevtsov, Formation of Wear-Resistant Plasma-Sprayed Coatings based on Self-Lubricating Composite Materials [in Russian], Bestprint, Minsk (2005), p. 253. A. Saidi, J. V. Wood, and J. L. F. Kellie, “Development of carbide coating materials for thermal spraying,” in: Proc. 5th World Seminar on Heat Treatment and Surface Engineering, Iranian Soc. Sci. Eng. Technol., Isfahan (1995), pp. 451–456. E. Lugscheider, E. Remek, Yu. Borisov, et al., “NiCr-Cr3C2 and NiCr-TiC high wear-resistant coatings for protective applications in steam turbines,” in: Proc. ITSC’95 (Kobe, Japan, May 22–26, 1995), Kobe (1995), pp. 235–240. P. Vitiaz, A. Verstak, T. Azarova, et al., “Titanium carbide in wear resistant coatings,” in: Proc. NTSC’96 (Cincinnati, USA, October 7–11, 1996), ASM Int. (1996), pp. 169–176. A. Ya. Kulik, Yu. S. Borisov, A. S. Mnukhin, and M. D. Nikitin, Thermal Spraying of Composite Powders [in Russian], Mashinostroenie, Leningrad (1985), p. 199. Yu. S. Borisov, A. L. Borisova, L. K. Shvedova, et al., “Thermal-sprayed Ti-BN composite powder coatings,” in: Proc. 11th All-Union Workshop on Heat-Resistant Coatings (Tula, May 31–June 2, 1983) [in Russian], Nauka, Leningrad (1985), pp. 127–131. A. L. Borisova, Yu. S. Borisov, L. K. Shvetsova, I. S. Martsenyuk, “Reactions in powder Ti-BN composites,” Powder Metall. Met. Ceram., 23, No. 4, 273–276 (1984). Yu. S. Borisov, A. L. Borisova, Yu. A. Kocherzhinskii, et al., “Reactions in the Ti-Si3N4 system under ordinary and plasma heating conditions,” Powder Metall. Met. Ceram., 17, No. 3, 216–221 (1978). Yu. S. Borisov, A. L. Borisova, L. I. Adeeva, et al., “Plasma sprayed Ti-Si-C composite coatings,” Probl. Spets. Électrometall., No. 3, 62–70 (1995). Yu. Borisov, A. Borisova, and E. Dyad’ko, “Composite Ti-Si-C system coatings,” Mat. Manufac. Proc., 1, No. 4, 831–835 (1995). A. L. Borisova, Yu. S. Borisov, B. A. Polyanin, et al., “The reaction in Ti-SiC composite powders and the properties of the sprayed coatings,” Powder Metall. Met. Ceram., 24, No. 10, 769–773 (1985). Yu. S. Borisov, A. L. Borisova, L. K. Shvedova, et al., “Reaction of boron carbide with titanium under ordinary and plasma heating conditions,” Powder Metall. Met. Ceram., 19, No. 9, 621–626 (1980). A. L. Borisova, Yu. S. Borisov, L. K. Shvedova, et al., “Reactions in the Cr-SiC system under conditions of ordinary and plasma heating,” Powder Metall. Met. Ceram., 18, No. 10, 722–728 (1979). Yu. Borisov, A. Borisova, and I. Mits, “Wear-resistant plasma coatings of the Cr-Si-C system,” in: Proc. TS’93 (Aachen, Germany, March 3–5, 1993), DVS Berichte (1993), pp. 350–354. A. L. Borisova and L. K. Shvedova, “High-temperature oxidation resistance and compatibility with the substrate of Cr-SiC composite powder coatings,” Zaschit. Pokryt. Metal., No. 18, 42–44 (1984). A. L. Borisov, M. L. Knyaz’, A. Yu. Tunik, et al., “Examining plasma-sprayed coatings based on nickel and iron with thermally reactive Ti/SiC composite powder additives,” Probl. Spets. Électrometal., No. 1, 45–63 (1999). A. G. Tsidulko and F. I. Kitaev, “Kinetics of particle heating during the plasma-deposition of a thermally reactive Ni-Al powder,” Powder Metall. Met. Ceram., 17, No. 9, 678–682 (1978). Yu. S. Borisov and S. L. Fishman, “Exothermically reacting compositions in thermal spraying of coatings,” in: Combustion Processes in Chemical Technology and Metallurgy [in Russian], Chernogolovka (1975), pp. 150–156. F. I. Kitaev, A. G. Tsidulko, V. N. Litvinenko, et al., “Effect of alloying on the formation and property of thermally reactive Ni-Al-powder coatings,” in: Proc. 8th All-Union Workshop on Heat-Resistant Coatings [in Russian], Nauka, Leningrad (1979), pp. 112–114. T. P. Geleishvili, Z. Sh. Okrostsvaridzem, B. D. Vardosanidze, et al., “Interphase interactions in composite clad powders during plasma spraying,” in: Theory and Practice of Thermal Spraying of Coatings [in Russian], Vol. 1, Dmitrov (1992), pp. 188–192. G. Chich and S. Dallaire, “Synthesis and deposition of TiC-Fe coatings by plasma spraying,” Surf. Coat. Technol., 46, No. 2, 199–206 (1991). Liu Chagcong, Huang Yi-Hua, Zhao Yong, et al., “TiC-Fe coating prepared by flame spray synthesis process,” Trans. Nonferrous Metals Soc. China, No. 3, 405–407 (2000). Yu. S. Borisov, V. G. Gopienko, and V. V. Rishin, “Effect of alloying on the properties of plasma-sprayed intermetallic composite powder coatings,” in: Proc. 8th All-Union Workshop on Heat-Resistant Coatings [in Russian], Nauka, Leningrad (1979), pp. 123–127. S. Z. Pustotina, N. N. Novikov, B. M. Solov’ev, et al., “Development and analysis of the properties of multilayer insulation coatings based on plasma-sprayed thermally reactive ceramic-metal compositions,” in: Proc. 10th All-Union Workshop on Heat-Resistant Coatings [in Russian], Nauka, Leningrad (1983), pp. 122–127. A. Ya. Kulik, A. S. Mnukhin, and A. Yu. Mezernitskii, “Enhancing the adhesion of plasma coatings by spraying thermally reactive metal-oxide powders,” in: Proc. 8th All-Union Workshop on Heat-Resistant Coatings [in Russian], Nauka, Leningrad (1979), pp. 96–100. Yu. S. Borisov, A. S. Zatserkovnyi, and I. V. Krivtsun, “Mathematical simulation of plasma spraying of composite powders, considering the exothermic synthesis of coating material,” Avtomat. Svarka, No. 1, 23–26 (2004). Yu. S. Borisov, I. V. Krivtsun, A. F. Muzhichenko, et al., “Computer simulation of plasma spraying,” Avtomat. Svarka, No. 12, 42–51 (2000). I. Ozdemir, I. Hamanaka, Y. Tsunekawa, and M. Okumiya, “In-process exothermic reaction in HVOF and plasma spraying with SiO2/Ni/Al-Si-Mg composite powder,” in: Proc. ITSC’2004 (Osaka, Japan, May 10–12), DVS-Verl., Osaka (2003), p. 15.