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Feng Zhu, Xinyan Huang & Shuangfeng Wang. (2022) Flame Spread over Polyethylene Film: Effects of Gravity and Fuel Inclination. Microgravity Science and Technology 34:3.
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Ulises Rojas-Alva & Grunde Jomaas. (2022) A historical overview of experimental solid combustion research in microgravity. Acta Astronautica 194, pages 363-375.
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Feng Zhu, Shuangfeng Wang, Zhanbin Lu & Chuanjia Wu. (2021) Opposed flame spread over thick solid fuels under influence of sub-atmospheric pressure and low-velocity flow. Fire Safety Journal 125, pages 103430.
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Xinyan Huang & Jian Gao. (2021) A review of near-limit opposed fire spread. Fire Safety Journal 120, pages 103141.
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Chuanjia Wu, Peiyi Sun, Xiuzhen Wang, Xinyan Huang & Shuangfeng Wang. (2020) Flame Extinction of Spherical PMMA in Microgravity: Effect of Fuel Diameter and Conduction. Microgravity Science and Technology 32:6, pages 1065-1075.
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Sarzina Hossain, Indrek S. Wichman, Fletcher J. Miller & Sandra L. Olson. (2020) Opposed flow flame spread over thermally thick solid fuels: buoyant flow suppression, stretch rate theory, and the regressive burning regime. Combustion and Flame 219, pages 57-69.
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Chuanjia Wu, Xinyan Huang, Shuangfeng Wang, Feng Zhu & Yongli Yin. (2019) Opposed Flame Spread over Cylindrical PMMA Under Oxygen-Enriched Microgravity Environment. Fire Technology 56:1, pages 71-89.
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Maria Thomsen, Carlos Fernandez-Pello, Xinyan Huang, Sandra Olson & Paul Ferkul. (2019) Buoyancy Effect on Downward Flame Spread Over PMMA Cylinders. Fire Technology 56:1, pages 247-269.
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Sandra L. Olson, David L. Urban, Gary A. Ruff, Paul V. Ferkul, Balazs Toth, Christian Eigenbrod, Florian Meyer & Grunde Jomaas. (2019) Concurrent Flame Spread Over Two-Sided Thick PMMA Slabs in Microgravity. Fire Technology 56:1, pages 49-69.
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Feng Zhu, Zhanbin Lu, Shuangfeng Wang & Yongli Yin. (2019) Microgravity diffusion flame spread over a thick solid in step-changed low-velocity opposed flows. Combustion and Flame 205, pages 55-67.
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Chengyao Li, Ya-Ting T. Liao, James S. T'ien, David L. Urban, Paul Ferkul, Sandra Olson, Gary A. Ruff & John Easton. (2019) Transient flame growth and spread processes over a large solid fabric in concurrent low-speed flows in microgravity – Model versus experiment. Proceedings of the Combustion Institute 37:3, pages 4163-4171.
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Maria Thomsen, Carlos Fernandez-Pello, Gary A. Ruff & David L. Urban. (2019) Buoyancy effects on concurrent flame spread over thick PMMA. Combustion and Flame 199, pages 279-291.
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David L. Urban, Paul Ferkul, Sandra Olson, Gary A. Ruff, John Easton, James S. T'ien, Ya-Ting T. Liao, Chengyao Li, Carlos Fernandez-Pello, Jose L. Torero, Guillaume Legros, Christian Eigenbrod, Nickolay Smirnov, Osamu Fujita, Sébastien Rouvreau, Balazs Toth & Grunde Jomaas. (2019) Flame spread: Effects of microgravity and scale. Combustion and Flame 199, pages 168-182.
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Shuangfeng Wang & Feng Zhu. 2019. Physical Science Under Microgravity: Experiments on Board the SJ-10 Recoverable Satellite. Physical Science Under Microgravity: Experiments on Board the SJ-10 Recoverable Satellite
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Feng Zhu, Shuangfeng Wang & Zhanbin Lu. (2018) A Comparative Study of Near-Limit Flame Spread Over a Thick Solid in Space- and Ground-Based Experiments. Microgravity Science and Technology 30:6, pages 943-949.
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Shmuel Link, Xinyan Huang, Carlos Fernandez-Pello, Sandra Olson & Paul Ferkul. (2018) The Effect of Gravity on Flame Spread over PMMA Cylinders. Scientific Reports 8:1.
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Feng Zhu, Zhanbin Lu & Shuangfeng Wang. (2015) Flame Spread and Extinction Over a Thick Solid Fuel in Low-Velocity Opposed and Concurrent Flows. Microgravity Science and Technology 28:2, pages 87-94.
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Osamu Fujita. (2015) Solid combustion research in microgravity as a basis of fire safety in space. Proceedings of the Combustion Institute 35:3, pages 2487-2502.
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Lauren M. SharpDaniel L. DietrichBrian J. Motil. (2013) Microgravity Fluids and Combustion Research at NASA Glenn Research Center. Journal of Aerospace Engineering 26:2, pages 439-450.
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Sandra Olson, Fumiaki Takahashi & James T'ien. (2011) Advanced Fire Blankets for Spacecraft Use. Advanced Fire Blankets for Spacecraft Use.
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J.Y. Malchi, J. Prosser, R.A. Yetter & S.F. Son. (2009) Realizing microgravity flame spread characteristics at 1 g over a bed of nano-aluminum powder. Proceedings of the Combustion Institute 32:2, pages 2437-2444.
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S.L. Olson & F.J. Miller. (2009) Experimental comparison of opposed and concurrent flame spread in a forced convective microgravity environment. Proceedings of the Combustion Institute 32:2, pages 2445-2452.
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George W. Sidebotham & Sandra L. Olson. (2008) Microgravity opposed-flow flame spread in polyvinyl chloride tubes. Combustion and Flame 154:4, pages 789-801.
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S McAllister, D Rich, C Lautenberger, Carlos Fernandez-Pello & Z Yuan. (2007) Modeling Microgravity and Normal Gravity Opposed Flame Spread over Polymer/Glass Composites. Modeling Microgravity and Normal Gravity Opposed Flame Spread over Polymer/Glass Composites.
Chris Lautenberger, Sara McAllister, David Rich & Carlos Fernandez-Pello. (2007) Effect of Environmental Variables on Flame Spread Rates in Microgravity. Effect of Environmental Variables on Flame Spread Rates in Microgravity.
J.Y. Malchi, R.A. Yetter, S.F. Son & G.A. Risha. (2007) Nano-aluminum flame spread with fingering combustion instabilities. Proceedings of the Combustion Institute 31:2, pages 2617-2624.
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Subrata Bhattacharjee, Richard Ayala, Kazunori Wakai & Shuhei Takahashi. (2005) Opposed-flow flame spread in microgravity-theoretical prediction of spread rate and flammability map. Proceedings of the Combustion Institute 30:2, pages 2279-2286.
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