REVIEWS

  1. Barzykin V.V., High-temperature synthesis in a thermal explosion regime. Int. J. of SHS, 1993, v.2, N 4, p.390-405.
  2. Barzykin V.V., Initiation of SHS-systems. Pure and Appl. Chem., 1992, v.64, N 7, p.909-918.
  3. Barzykin V.V., Merzhanov A.G., Strunina A.G., Ignition of Heterogeneous Systems Containing Condenced Reaction Products, Proc. 23rd Int. Symposium on Combustion, The Combustion Institute, Pittsburgh, 1990, pp.1725-1731.
  4. Barzykin V.V., Merzhanov A.G., Unstable combustion and heterogeneous systems with condenced reaction products- A review. Int. J. of SHS, 1997, v.6, N 4, p.377-398.
  5. Borovinskaya I.P., Chemical classes of the SHS processes and materials. Pure & Appl. Chem., 1992, v. 64, N 7, p.919-940.
  6. Borovinskaya I.P., Combustion and chemical synthesis. Arch. Procesow Spalania, 1974, v.5, N 2, p.145-162 (Russ.).
  7. Feng H.J., Hunter K.R., Moore J.J., Combustion synthesis of ceramic and metal-matrix composites. J. Mater. Synth. Process., 1994, v.2, p.71-86.
  8. Gordopolov Yu.A., Merzhanov A.G., A new processing for the self-propagating high temperature synthesis (SHS) combined with shock compression technique. In: Shock Waves in Materials Science / Ed. A.B. Sawaoka. Tokyo: Springer-Verlag, 1993, p.177-194.
  9. Gordopolov Yu.A., Merzhanov A.G., Shock waves in the self-propagating high-temperature synthesis research. AIAA, Prog. Astronaut. and Aeronaut., 1993, v.154, p.539-559.
  10. Grigor'ev Yu.M., Merzhanov A.G., SHS coatings. Int J. of SHS, 1992, v.1, N 4, p.600-639.
  11. Grigoryan E.H., SHS Catalysts and Supports, Intern. J. of SHS, 1997, V.6, No. 3, P. 307-325.
  12. Haggerty J.S., Chaing Y.M. Reaction-based processing method for ceramic and composites. Ceram. Eng. Sci. Proc., 1990, v.11, N 7-8, p.758-781.
  13. Hlavacek V., Combustion Synthesis: a Historical Perspective. ĄCerS. Bull., 1991, Vol.70, N.2, p.240-243.
  14. Hlavacek V., Puszynski J.A., Chemical engineering aspects of advanced ceramic materials. Indust.and Eng. Chem. Res., 1996, v.35,p.(2)349-377.
  15. Holt J.B., Combustion Synthesis: a New Area of Research in Materials Science. Energy & Technology Review LLNL, Jan.1984, p.11-15.
  16. Holt J.B., Dunmead S.D., Self-heating synthesis of materials. Annual. Rev. Mater. Sci., 1991, v.21, p.305-334.
  17. Kaibyshev O.A., Zaripov N.G., Self-propagating high-temperature synthesis and superconductivity. Int. J. of SHS, 1997, v.6, N 2, p.203.
  18. Kashireninov O.E., Reactants transport in combustion synthesis of ceramics. Synth. and Characterization of Advanced Mater., 1998, v.681, p.187-210.
  19. Koizumi M., Recent progress in FGMs research in Japan. Int. J. of SHS, 1997, v.6, N 3, p.295.
  20. Makhonin N.S., Rodriguez M.A., Moya J.S., Single-crystal nitride fibers obtained by SHS. Int. J. of SHS, 1997, v.6, N 3, p.345.
  21. Matkowsky B.J., Aldushin A.P., Shkadinsky K.G., Shkadinskaya G.V., Gravitational effects in SHS. Int. J. of SHS, 1997, v.6, N 3, p.243.
  22. McCauley J.W., A Historical and Technical Perspective of SHS. Ceram.Eng.Proc., 1990, Vol.11, No.9-10, p.1137-1181.
  23. Merzhanov A.G., Advanced SHS ceramics: today and tomorrow morning. In: Ceramics: Toward the 21st Century: Proc.of Symp. on Ceram. Commemorating the Centennial of the Ceram. Soc. of Japan, 16-18 Oct., 1991, Yokohama, Japan / Eds. N. Soga, A. Kato. Tokyo: Ceram. Soc. Jap. Publ., 1991, p.378-403.
  24. Merzhanov A.G., Borovinskaya I.P., A new class of combustion processes. Combust. Sci. And Technol., 1975, v.10,N 5-6, p.195-201.
  25. Merzhanov A.G., Borovinskaya I.P., Self-propagating high-temperature synthesis in chemistry and technology of refractory metals. Zh. Vses. Khim. Ob-va im. D.I.Mendeleeva, 1979, v.24, N 3, p.223-227.
  26. Merzhanov A.G., Combustion processes in chemical reaction engineering. Int. Chem. Eng., 1980, v.20, N 1, p.150-171.
  27. Merzhanov A.G., Combustion processes in condensed systems. Vestn. Akad. Nauk SSSR, 1979, N 8, p.10-18.
  28. Merzhanov A.G., Combustion processes that synthesize materials. In: Proc. Int. Conf. on Adv. Mater. and Process.Technol. (AMPT'93), 24-27 Aug., 1993, Dublin, p.513-532.
  29. Merzhanov A.G., Combustion processes that synthesize materials. J. Mater. Process. Techol., 1996, v.56, p.222-241.
  30. Merzhanov A.G., Combustion: new manifestations of an ancient process. In: Chemistry of Advanced Materials / Ed. C.N.R. Rao. Blackwell Sci. Publ., 1992, p.19-39.
  31. Merzhanov A.G., Fluid dynamics phenomena in the processes of self-propagating high-temperature synthesis. Combust. Sci. and Technol., 1995, v.105, N 4-6, p.295-325.
  32. Merzhanov A.G., From academic idea to industrial production. Vestn. Akad. Nauk SSSR, 1981, N 10, p.30-36.
  33. Merzhanov A.G., Fundamentals, achievements, and perspectives for development of solid-flame combustion. Russ.Chem. Bull., 1997, v.46, N 1, p.1-27.
  34. Merzhanov A.G., History and new developments in SHS. Ceram. Trans.: Adv. Synth. and Process. of Compos. and Adv.Ceram. (Special Iss.), 1995, v.56, p.3-25.
  35. Merzhanov A.G., Khaikin B.I., Theory of combustion waves in homogeneous media. Progr. Energy Combust. Sci., 1988, v.14, p.1-98.
  36. Merzhanov A.G., Nonequilibrium theory of flame propagation. In: Combustion, Detonation, Shock Waves: Proc. of the Zel'dovich Memorial, Int. Conf. on Combust., Moscow, 12-17 Sept., 1994 / Ed. S.M. Frolov. V.1. Moscow: Russ. Section Combust. Inst. Publ., 1994, p.20-44; Advances in Combustion Science: In Honor of Ya.B.Zel'dovich /Eds. W.A.Sirignano, A.G.Merzhanov, L. De Luca. Aeronaut. and Astronaut. Publ., 1997, p.37-59 (Ser.: Prog. in Astronaut. and Aeronaut.,V.173).
  37. Merzhanov A.G., Problems of combustion in chemical technology and metallurgy. Usp.Khim., 1976, v.45, N 5, p.827-248.
  38. Merzhanov A.G., Rogachev A.S., Structural macrokinetics of SHS processes. Pure and Appl. Chem., 1992, v.64, N 7, p.941-953.
  39. Merzhanov A.G., Self-propagating high-temperature synthesis and powder metallurgy: unity of goals and competition of principles. In: Particulate Materials and Processes. Advances in Powder Metallurgy: Proc. of the 1992 Powder Metall. World. Congr., San Francisco, CA, USA, 21-26 June 1992. V.9. Princeton: Metal Powder Ind. Fed. Publ., 1992, p.341-368.
  40. Merzhanov A.G., Self-propagating high-temperature synthesis of ceramic (oxide) superconductors. In: Ceramic Transactions. Superconductivity and Ceramic Superconductors / Eds. K.N. Nair, E.I. Dupont de Nemours, E.A. Giess. Westerville, Ohio: Amer. Ceram. Soc. Publ., 1990, v.13, p.519-549.
  41. Merzhanov A.G., Self-propagating high-temperature synthesis of refractory compounds. Vestn. Akad. Nauk SSSR,1976, N 10, p.76-84.
  42. Merzhanov A.G., Self-propagating high-temperature synthesis. In: Fizicheskaya Khimia. Sovremennye Problemy (Physical Chemistry. Modern Problems) / Ed. Ya.M. Kolotyrkin. Moscow: Khimiya, 1983, p.5-45.
  43. Merzhanov A.G., Self-propagating high-temperature synthesis: Twenty years of search and findings. In: Combustion and Plasma Synthesis of High-Temperature Materials / Eds. Z.A. Munir, J.B. Holt. N.Y., etc.: VCH Publ., 1990, p.1-53.
  44. Merzhanov A.G., SHS technology. Adv. Mater., 1992, v.4, N 4, p.294-295.
  45. Merzhanov A.G., SHS-process: combustion theory and practice. Arch. Combust., 1981, v.191, N 1/2, p.23-48.
  46. Merzhanov A.G., Solid flames: discovery, concepts and horizons of cognition. Combust. Sci. and Technol., 1994, v.98, N 4-6, p.307-336.
  47. Merzhanov A.G., Ten research directions in the future of SHS. Int. J. of SHS, 1995, v.4, N 4, p.323-350.
  48. Merzhanov A.G., Theory and practice of SHS: worldwide state of the art and the newest results. Int. J. of SHS, 1993,v.2, N 2, p.113-158.
  49. Merzhanov A.G., Theory of gasless combustion. Arch. Procesow Spalania, 1974, N 5, p.17-39.
  50. Merzhanov A.G., Worldwide evolution and present status of SHS as a branch of modern R&D (to the 30th Anniversary of SHS). Int. J. of SHS, 1997, v.6, N 2, p.119-163.
  51. Miyamoto Y., Combustion Synthesis Reaction & its Application to Certamic Research & Development. J.Mineralogical Soc. of Jpn., 1988, V.18, N 6, p.383-391.
  52. Moore J.J., Feng H.J., Combustion synthesis of advanced materials. 1. Reaction parameters. Progr. Mater. Sci., 1995, v.39, p.(4-5)243-273.
  53. Moore J.J., Feng H.J., Combustion synthesis of advanced materials. 2.Classification, application and modeling. Progr. Mater. Sci., 1995, v.39, p.(4-5)275-316.
  54. Moore J.J., Kunrath A.O., Torres R., Reimanis I., Mustoe G., Upadhya K., Levashov E.A., Self-propagating high-temperature synthesis of dense ceramic composite. Int. J. of SHS, 1997, v.6, N 3, p.277-294.
  55. Mortensen A., Suresh S., Functionally graded metals and metal-ceramic composites. 1. Processing. Int. Mater. Rev., 1995, v.40, N 6, p.239-265.
  56. Mukas'yan A.S., Borovinskaya I.P., Structure formation in SHS nitrides. Int. J. of SHS, 1992, v.1, N 1, p.55-63.
  57. Munir Z.A., Anselmi-Tamburini U. Self-Propagating Exothirmic Resactions: the Synthesis of High-Temperature Materials by Combustion. Mater.Sci.Reports. - 1989, V.3, N 7-8, p.277-365.
  58. Munir Z.A., Electrical simulated SHS. Int. J. of SHS, 1997, v.6, N 2, p.165.
  59. Munir Z.A., The mechanism of synthesis of high-temperature materials by combustion processes. High Temp. Sci., 1990, v.27, p.279-293.
  60. Novozhilov B.V. Non-linear SHS phenomena. Pure and Appl. Chem., 1992, v.64, N 7, p.955-964.
  61. Odawara A.O., Kaieda A.Y., A New Synthesis Method for Ceramics.Self-Propagating High Temperature Synthesis Method. Sosei to Kako.- 1987, V.28, N 312, p.3-8.
  62. Odawara A.O., Kaieda A.Y., A New Process Synthesis- SHS Process. Trans.Nat.Res.Inst.Metals.- 1988, V.30, N 2, p.18-24.
  63. Pampuch R., Advanced HT ceramic materials via solid combustion. Journal of the European Ceramic Society, 1999, p.2395-2404.
  64. Pampuch R., Lis J., Stobierski L. Self-Propagating High-Temperature Synthesis of Ceramic Powder. Sci. Ceram.- 1988, V.14, p.15-26.
  65. Pampuch R., Processing of particulate SHS products to sinterable powders. Int. J. of SHS, 1997, v.6, N 2, p.187-202.
  66. Pampuch R., SHS powders: the present and future. In Ceramic Processing Science and Technology, ed. Shin-Ichi Hirano, H. Hausner and G. Messing. Ceramic Transactions, Vol 51. American Ceramic Society Columbus, OH, 1995.
  67. Patil K.C., Aruna S.T., Ekambaram S., Combustion synthesis. Current Opinion in Solid State & Mater. Sci., 1997, v.2, N 2, p.158-165.
  68. Pojman J.A., Fortenberry D., Ilyashenko V.M., Frontal polymerization as an analog of SHS. Int. J. of SHS, 1997, v.6, N 3, p.355-376.
  69. Pojman J.A., Fortenberry D., Khan A., Ilyashenko V.M., Frontal polymerization: Self-propagating high-temperature synthesis of polymeric materials. Synthesis and Characterization of Advanced Materials, 1998, v.628, p.220-235.
  70. Rice R.W., Review. Microstructural aspects of fabricating bodies by self-propagating synthesis. J. of Mater. Sci., 1991, vol. 26, p. 6533-6541.
  71. Rogachev A.S., Macrokinetics of gasless combustion: old problem and new approaches. Int. J. of SHS, 1997, v.6, N 2, p.215-242.
  72. Sata N., Synthesis Techniques and the Applications of Materials by Using SHS-Process. J.Ind.Expl.Soc.Jpn.- 1988, V.49, N 4, p.242-249.
  73. Shiryaev A., Thermodynamics of SHS processes: An advanced approach. Int. J. of SHS, 1995, v.4, N 4, p.351-362.
  74. Shteinberg A.S., Knyazik V.A., Macrokinetics of high-temperature heterogeneous reactions: SHS aspects. Pure and Appl. Chem., 1992, v.64, N 7, p.965-976.
  75. Stolin A.M., Methods and techniques for measuring reological properties of SHS-materials. Int. J. of SHS, 1997, v.6, N 3. p. 327-344.
  76. Subrahmanyam J., Vijayakumar M., Self-propagating high-temperature synthesis. J. Mater. Sci., 1992, v.27, p.6249-6273.
  77. Varma A., Rogachev A.S., Mukasyan A.S., Hwang S., Combustion Synthesis of Advanced Materials: Principles and Applications. Advances in Chemical Engineering, 1998, v.24, pp.79-226
  78. Varma A., Lebrat J.P., Combustion synthesis of advanced materials. Chem. Eng. Sci., 1992, v.47, N 9-11, p.2179-2194.
  79. Wang L.L., Munir Z.A., Maksimov Yu.M., Thermite reactions - their utilization in the synthesis and processing of materials. J. Mater. Sci., 1993, v.28, N 14, p.3693-3708.
  80. Yi H.C., Moore J.J., Review. Self-propagating high-temperature (combustion)synthesis (SHS)of powder compacted materials. J. Mater. Sci., 1990, v.25, p.1159-1168.
  81. Yuan R.Z., Composite materials and compositing process by SHS technology. Int. J. of SHS, 1997, v.6, N 3, p.265-276.
  82. Yukhvid V.I., Modifications of SHS processes. Pure and Appl. Chem., 1992, v.64, N 7, p.977-988.