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Combustion Science and Technology Volume 3, 1971 - Issue 2
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Original Articles

Ignition Temperatures of Metals in Oxygen Atmospheres

N. M. LAURENDEAU Guggenheim Laboratories, Princeton University, Princeton, New Jersey
&
I. GLASSMAN Guggenheim Laboratories, Princeton University, Princeton, New Jersey
Pages 77-82 | Received 04 Feb 1971, Published online: 10 May 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. I. Poletaev, M. Y. Khlebnikova & K. Y. Khanchych. (2018) Producing and properties of zinc dust flames. Combustion Science and Technology 190:6, pages 1096-1109.
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D.S. Aydin, M. Hoseini & M.O. Pekguleryuz. (2015) Understanding the high temperature oxidation and ignition behaviour of two-phase Mg–Nd alloys and a comparison to single phase Mg–Nd. Philosophical Magazine 95:3, pages 259-274.
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Maryse Muller, Hazem El-Rabii & Rémy Fabbro. (2014) Laser Ignition of Bulk Iron, Mild Steel, and Stainless Steel in Oxygen Atmospheres. Combustion Science and Technology 186:7, pages 953-974.
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K. Nguyen & M. C. Branch. (1987) Ignition Temperature of Bulk 6061 Aluminum, 302 Stainless Steel and 1018 Carbon Steel in Oxygen. Combustion Science and Technology 53:4-6, pages 277-288.
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TADAO TAKENO & SABURO YUASA. (1980) Ignition of Magnesium and Magnesium-Aluminum Alloy by Impinging Hot-Air Stream. Combustion Science and Technology 21:3-4, pages 109-121.
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Ioan Barabulica, Marius Sebastian Secula, Adriana Mariana Asoltanei, Eugenia Teodora Iacob-Tudose, Gabriela Lisa & Ioan Mamaliga. (2024) Experimental Study on the Reaction of Magnesium in Carbon Dioxide and Nitrogen Atmosphere. ChemEngineering 8:2, pages 41.
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Ioanna A. Koromila & Kostas J. Spyrou. (2023) Design Fire Methodology for Vehicle Spaces Onboard Ships. Fire Technology 59:4, pages 1725-1759.
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Teresa Martí-RossellóPaul RayJun LiLeo Lue. (2021) Numerical Model for the Combustion of a Thermal Lance. Industrial & Engineering Chemistry Research 60:21, pages 7788-7801.
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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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James C. Thomas, Mark W. Crofton, James P. Anderson, Michael D. Worshum & Eric L. Petersen. (2017) Particle-Impact Characterization Experiments at Liquid Rocket Engine Conditions using a Miniature Shock Tube. Particle-Impact Characterization Experiments at Liquid Rocket Engine Conditions using a Miniature Shock Tube.
Liang Tian, Iver Anderson, Trevor Riedemann & Alan Russell. (2017) Production of fine calcium powders by centrifugal atomization with rotating quench bath. Powder Technology 308, pages 84-93.
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Samuel Edgar Davis & Theodore A. SteinbergMaryse Muller, Hazem El-Rabii, Rémy Fabbro, Frédéric Coste, Jean-Christophe Rostaing, Martina Ridlova, Alain Colson & Hervé Barthélémy. 2016. Flammability and Sensitivity of Materials in Oxygen-Enriched Atmospheres: 14th Volume. Flammability and Sensitivity of Materials in Oxygen-Enriched Atmospheres: 14th Volume 308 325 .
D.S. Aydin, Z. Bayindir, M. Hoseini & M.O. Pekguleryuz. (2013) The high temperature oxidation and ignition behavior of Mg–Nd alloys part I: The oxidation of dilute alloys. Journal of Alloys and Compounds 569, pages 35-44.
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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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V. D. Sasnovskaya & A. P. Razumova. (2006) Oxidation of magnesium in the systems NaClO4-Mg-Metal oxide (peroxide). Russian Journal of Inorganic Chemistry 51:9, pages 1349-1354.
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TA Steinberg, BE Newton & HD BeesonMJ Maes, E Forsyth, DB Wilson & JM Stoltzfus. 2003. Flammability and Sensitivity of Materials in Oxygen-Enriched Atmospheres: 10th Volume. Flammability and Sensitivity of Materials in Oxygen-Enriched Atmospheres: 10th Volume 120 136 .
Jongdae Kim, Tae Moon Roh, Kyoung-Ik Cho & K.C. Jungling. (2001) Optical characteristics of silicon semiconductor bridges under high current density conditions. IEEE Transactions on Electron Devices 48:5, pages 852-857.
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Yuxiu Zhu & Saburo Yuasa. (1998) Effects of oxygen concentration on combustion of aluminum in oxygen/nitrogen mixture streams. Combustion and Flame 115:3, pages 327-334.
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S Yuasa. (1997) Ignition and combustion of aluminum in oxygen/nitrogen mixture streams. Combustion and Flame 108:4, pages 387-390.
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TC Chou, WT Royals & TA SteinbergDB Wilson & JM Stoltzfus. 1997. Flammability and Sensitivity of Materials in Oxygen-Enriched Atmospheres: Eighth Volume. Flammability and Sensitivity of Materials in Oxygen-Enriched Atmospheres: Eighth Volume 272 282 .
J Kurtz. (1996) Emission spectra of burning iron in high-pressure oxygen. Combustion and Flame 104:4, pages 391-400.
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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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JM Stoltzfus & DD JanoffBL Werley, H Barthélémy, R Gates, JW Slusser, KB Wilson & R Zawierucha. 1993. Flammability and Sensitivity of Materials in Oxygen-Enriched Atmospheres: Sixth Volume. Flammability and Sensitivity of Materials in Oxygen-Enriched Atmospheres: Sixth Volume 300 345 .
Theodore A. Steinberg, D.Bruce Wilson & Frank Benz. (1992) The combustion phase of burning metals. Combustion and Flame 91:2, pages 200-208.
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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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Hideo Ohtani. (1990) Theoretical consideration on the ignition of hot iron in high pressure oxygen.. Fire Science and Technology 10:1/2, pages 1-9.
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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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J. C. Moulder & J. G. Hust. 1983. Materials at Low Temperatures. Materials at Low Temperatures 343 369 .
BL WerleyRW Monroe, CE Bates & CD Pears. 1983. Flammability and Sensitivity of Materials in Oxygen-Enriched Atmospheres. Flammability and Sensitivity of Materials in Oxygen-Enriched Atmospheres 126 149 .
V. G. Ivanov, G. V. Ivanov, P. V. Lapin & V. P. Kuznetsov. (1981) Role of iodation in the combustion of metal oxides with iodine pentoxide. Combustion, Explosion, and Shock Waves 17:6, pages 607-614.
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A. L. Breiter, V. M. Mal'tsev & E. I. Popov. (1978) Models of metal ignition. Combustion, Explosion, and Shock Waves 13:4, pages 475-485.
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M. E. Derevyaga, L. N. Stesik & É. A. Fedorin. (1977) Ignition and combustion of aluminum and zinc in air. Combustion, Explosion, and Shock Waves 13:6, pages 722-726.
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M. E. Derevyaga, L. N. Stesik & �. A. Fedorin. (1977) Ignition of titanium in oxygen. Combustion, Explosion, and Shock Waves 12:4, pages 493-496.
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ALAN F. CLARKJEROME G. HUST. (1974) A Review of the Compatibility of Structural Materials with Oxygen. AIAA Journal 12:4, pages 441-454.
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