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Combustion Science and Technology Volume 21, 1980 - Issue 3-4
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Original Articles

Ignition of Magnesium and Magnesium-Aluminum Alloy by Impinging Hot-Air Stream

TADAO TAKENO Institute of Space and Aeronautical Science, University of Tokyo, Komaba, Meguro-ku, Tokyo, Japan
&
SABURO YUASA Institute of Space and Aeronautical Science, University of Tokyo, Komaba, Meguro-ku, Tokyo, JapanView further author information
Pages 109-121 | Received 08 May 1979, Accepted 23 Jul 1979, Published online: 27 Apr 2007

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Keita Nishii, Mariko Akiyama, Hiroyuki Koizumi & Kimiya Komurasaki. (2023) Combustion of Magnesium Wires with Oxygen and Water Vapor. Combustion Science and Technology 195:10, pages 2364-2380.
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N. Mebarki, N. V. Ravi Kumar, J. J. Blandin, M. Suery, F. Pelloux & G. Khelifati. (2005) Correlation between ignition and oxidation behaviours of AZ91 magnesium alloy. Materials Science and Technology 21:10, pages 1145-1151.
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J. T. MOORE, S. R. TURNS & R. A. YETTER. (2005) COMBUSTION OF LITHIUM–ALUMINUM ALLOYS. Combustion Science and Technology 177:4, pages 627-669.
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V. ROSENBAND, A. GANY & Y. M. TIMNAT. (1995) A Model for Low-Temperature Ignition of Magnesium Particles. Combustion Science and Technology 105:4-6, pages 279-294.
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DIRK MEINKÖHN. (1995) The Dynamics of Thin Films on Reaction Surfaces. Combustion Science and Technology 105:1-3, pages 85-116.
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E. Ya. SHAFIROVICH & U.I. GOLDSHLEGER. (1992) Combustion of Magnesium Particles in CO2/CO Mixtures. Combustion Science and Technology 84:1-6, pages 33-43.
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Articles from other publishers (39)

Shibin Luo, Yanbin Feng, Jiawen Song, Dequan Xu & Kunxiong Xia. (2022) Progress and challenges in exploration of powder fueled ramjets. Applied Thermal Engineering 213, pages 118776.
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Khin Sandar Tun, Tan Yan Shen Brendan, Sravya Tekumalla & Manoj Gupta. (2021) Development from Alloys to Nanocomposite for an Enhanced Mechanical and Ignition Response in Magnesium. Metals 11:11, pages 1792.
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Guillaume Moser, Cornelius Schönnenbeck, Valérie Tschamber, Alain Brillard & Jean-François Brilhac. (2021) Experimentation and kinetic modeling of low-temperature oxidation of magnesium particles for the production of energy with low environmental impact. Combustion and Flame 230, pages 111419.
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Keita Nishii, Yoshihito Mannami, Mariko Akiyama, Masaya Murohara, Koizumi Hiroyuki & Kimiya Komurasaki. (2020) Experimental Study on Bulk Metal-Water Combustion for Small Spacecraft Propulsion. Experimental Study on Bulk Metal-Water Combustion for Small Spacecraft Propulsion.
Dong Han, Jin Zhang, Jinfeng Huang, Yong Lian & Guangyu He. (2020) A review on ignition mechanisms and characteristics of magnesium alloys. Journal of Magnesium and Alloys 8:2, pages 329-344.
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Yuecun Wang, Meng Li, Yueqing Yang, Xin’ai Zhao, Evan Ma & Zhiwei Shan. (2020) In-situ surface transformation of magnesium to protect against oxidation at elevated temperatures. Journal of Materials Science & Technology 44, pages 48-53.
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Luis Angel Villegas-Armenta & Mihriban Ozden Pekguleryuz. (2020) The Ignition Behavior of a Ternary Mg–Sr–Ca Alloy. Advanced Engineering Materials 22:5, pages 1901318.
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Syed Alay Hashim, Srinibas Karmakar & Arnab Roy. (2019) Effects of Ti and Mg particles on combustion characteristics of boron–HTPB-based solid fuels for hybrid gas generator in ducted rocket applications. Acta Astronautica 160, pages 125-137.
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Guillaume Moser, Valérie Tschamber, Cornelius Schönnenbeck, Alain Brillard & Jean-François Brilhac. (2018) Non-isothermal oxidation and kinetic analysis of pure magnesium powder. Journal of Thermal Analysis and Calorimetry 136:5, pages 2145-2155.
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Sravya Tekumalla & Manoj Gupta. (2017) An insight into ignition factors and mechanisms of magnesium based materials: A review. Materials & Design 113, pages 84-98.
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Jihwan Lim, Sanghyup Lee & Woongsup Yoon. (2014) A comparative study of the ignition and burning characteristics of afterburning aluminum and magnesium particles. Journal of Mechanical Science and Technology 28:10, pages 4291-4300.
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Frank Czerwinski. (2014) Controlling the ignition and flammability of magnesium for aerospace applications. Corrosion Science 86, pages 1-16.
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D. S. Aydin, Z. Bayindir & M. O. Pekguleryuz. (2013) The effect of strontium (Sr) on the ignition temperature of magnesium (Mg): a look at the pre-ignition stage of Mg–6 wt% Sr. Journal of Materials Science 48:23, pages 8117-8132.
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Xiong-Gang Wu, Qi-Long Yan, Xin Guo, Xiao-Fei Qi, Xiao-Jiang Li & Ke-Qiang Wang. (2011) Combustion efficiency and pyrochemical properties of micron-sized metal particles as the components of modified double-base propellant. Acta Astronautica 68:7-8, pages 1098-1112.
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Hassan Jafari, Mohd Hasbullah Idris & Ali Ourdjini. (2011) High temperature oxidation of AZ91D magnesium alloy granule during in-situ melting. Corrosion Science 53:2, pages 655-663.
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Saburo Yuasa, Masaru Kawashima & Takashi Sakurai. (2009) Spontaneous ignition of ultra-fine magnesium powder without an original oxide coat at room temperature in O2/N2 mixture streams. Proceedings of the Combustion Institute 32:2, pages 1929-1936.
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Fan Zhang. 2009. Shock Wave Science and Technology Reference Library. Shock Wave Science and Technology Reference Library 315 384 .
K. A. Avdeev, F. S. Frolov, A. A. Borisov & S. M. Frolov. (2008) A modified model of the ignition of a magnesium particle. Russian Journal of Physical Chemistry B 2:3, pages 456-462.
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Timothy Miller & Alejandrina Garza. (2006) Finite Rate Calculations of Magnesium Combustion in Vitiated Oxygen and Steam Atmospheres. Finite Rate Calculations of Magnesium Combustion in Vitiated Oxygen and Steam Atmospheres.
Edward L. Dreizin, Charles H. Berman & Edward P. Vicenzi. (2000) Condensed-phase modifications in magnesium particle combustion in air. Combustion and Flame 122:1-2, pages 30-42.
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E.L. Dreizin. (2000) Phase changes in metal combustion. Progress in Energy and Combustion Science 26:1, pages 57-78.
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U. I. Gol'dshleger & E. Ya. Shafirovich. (1999) Combustion regimes of magnesium in carbon oxides. 1. Combustion in CO2. Combustion, Explosion, and Shock Waves 35:6, pages 637-644.
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Benjamin Legrand, Evgeny Shafirovich, Michaël Marion, Christian Chauveau & Iskender Gökalp. (1998) Ignition and combustion of levitated magnesium particles in carbon dioxide. Symposium (International) on Combustion 27:2, pages 2413-2419.
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Aporo Fukuchi, Masaru Kawashima & Saburo Yuasa. (1996) Combustion characteristics of Mg−CO2 counterflow diffusion flames. Symposium (International) on Combustion 26:2, pages 1945-1951.
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Evgeny Shafirovich & Udo Goldshleger. (1995) Combustion of magnesium particles in carbon dioxide and monoxide. Combustion of magnesium particles in carbon dioxide and monoxide.
V. Rosenband, A. Gany & Y. M. Timnat. (1995) Effect of mechanical stresses on heterogeneous oxidation of metals. Oxidation of Metals 43:1-2, pages 141-156.
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Saburo Yuasa & Aporo Fukuchi. (1994) Ignition and combustion of magnesium in carbon dioxide streams. Symposium (International) on Combustion 25:1, pages 1587-1594.
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E.Ya. Shafirovich & U.I. Goldshleger. (1992) The superheat phenomenon in the combustion of magnesium particles. Combustion and Flame 88:3-4, pages 425-432.
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Saburo Yuasa, Sakurako Sogo & Hiroshi Isoda. (1992) Ignition and combustion of aluminum in carbon dioxide streams. Symposium (International) on Combustion 24:1, pages 1817-1825.
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V.I. Rozenband & N.I. Vaganova. (1992) A strength model of heterogeneous ignition of metal particles. Combustion and Flame 88:1, pages 113-118.
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V. I. Rozenband & N. I. Vaganova. (1992) A strength model of heterogeneous ignition of metal particles. Combustion, Explosion, and Shock Waves 28:1, pages 1-7.
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S. Yuasa & H. Isoda. (1991) Ignition and combustion of small boron lumps in an oxygen stream. Combustion and Flame 86:3, pages 216-222.
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B.S. Varshney, Surendra Kumar & T.P. Sharma. (1990) Studies on the burning behaviour of metal powder fires and their extinguishment: Part 1 — Mg, Al, AlMg alloy powder fires on sand bed. Fire Safety Journal 16:2, pages 93-117.
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E. Ya. Shafirovich & U. I. Gol'dshleger. (1990) Ignition and burning of magnesium particles in caseous oxides of carbon. Combustion, Explosion, and Shock Waves 26:1, pages 1-7.
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Saburo Yuasa & Hiroshi Isoda. (1989) Ignition and combustion of metals in a carbon dioxide stream. Symposium (International) on Combustion 22:1, pages 1635-1641.
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E. V. Chernenko, L. F. Afanas'eva & V. A. Lebedeva. (1989) Inflammability of mixtures of metal oxides with magnesium. Combustion, Explosion, and Shock Waves 25:3, pages 263-268.
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Ke Nguyen & Melvyn C. Branch. (1985) Near-infrared two-color pyrometer for determining ignition temperatures of metals and metal alloys. Review of Scientific Instruments 56:9, pages 1780-1783.
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Saburo Yuasa. (1985) Spontaneous ignition of sodium in dry and moist air streams. Symposium (International) on Combustion 20:1, pages 1869-1876.
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Saburo Yuasa & Tadao Takeno. (1982) Ignition and combustion of magnesium-aluminum alloy particle clouds in a hot gas stream. Symposium (International) on Combustion 19:1, pages 741-748.
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