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Combustion Science and Technology Volume 179, 2007 - Issue 10
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Original Articles

COMBUSTION OF NOMEX® III FABRIC IN POTENTIAL SPACE HABITAT ATMOSPHERES: CYCLIC FLAME SPREAD PHENOMENON

JULIE E. KLEINHENZ Department of Mechanical and Aerospace Engineering, Case Western Reserve University, Cleveland, Ohio
&
JAMES S. T'IEN Department of Mechanical and Aerospace Engineering, Case Western Reserve University, Cleveland, OhioCorrespondence[email protected]
Pages 2153-2169 | Received 10 Aug 2006, Accepted 27 Feb 2007, Published online: 10 Oct 2007

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Wenlong Wang, Jun Fang, Luyao Zhao, Yue Zhang, Jinjun Wang & Yongming Zhang. (2022) Unilateral Blow-Off and Periodic Smoldering Holes in Upward Flame Spread Over Thin Charring Material. Combustion Science and Technology 0:0, pages 1-26.
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Chengyao Li & Ya-Ting T. Liao. (2018) Numerical investigation of flame splitting phenomenon in upward flame spread over solids with a two-stage pyrolysis model. Combustion Science and Technology 190:12, pages 2082-2096.
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Yanjun Li & Ya-Ting Liao. (2018) Thermal analysis and pyrolysis modeling of NOMEX IIIA fabric. Combustion Science and Technology 190:9, pages 1580-1593.
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Mustafa Ertekin, Gözde Ertekin & Arzu Marmaralı. (2018) Analysis of thermal comfort properties of fabrics for protective applications. The Journal of The Textile Institute 109:8, pages 1091-1098.
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Louise Cluness, Kaitlyn Docherty, Jack Hagerty, Jamie Hunter, Duncan I. Johnston, Charlie Jordan & Matthew P. Cartmell. (2024) Project Gradient: Design of a Dual Occupancy Lunar Habitat for use with Renewable Propulsion Systems . Project Gradient: Design of a Dual Occupancy Lunar Habitat for use with Renewable Propulsion Systems .
Yunji Gao, Xiaolong Yang, Yueyang Luo, Feng Guo, Yuchun Zhang & Liang Gong. (2021) Upward flame spread and self‐induced buoyant blow‐off over two‐sided thin fabric at different inclination angles. Fire and Materials 46:5, pages 753-761.
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Luyao Zhao, Jun Fang, Shangqing Tao, Jingwu Wang & Yongming Zhang. (2020) Effects of Ambient Parameters and Sample Width on Upward Flame Spread over Thermally Thin Solids. Fire Technology 57:1, pages 145-161.
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Charles Baukal, Jr.Sandra Olson. 2020. A Gallery of Combustion and Fire. A Gallery of Combustion and Fire 74 106 .
Sinian Gu, Xuemin Bu & Yunji Gao. (2019) Experimental investigations of width effects and flame splitting phenomenon in upward flame spread over advertising canvas. Case Studies in Thermal Engineering 15, pages 100524.
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Jorge Contreras, Jean-Louis Consalvi & Andrés Fuentes. (2018) Numerical simulations of microgravity ethylene/air laminar boundary layer diffusion flames. Combustion and Flame 191, pages 99-108.
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Michael C. Johnston, James S. T'ien, Derek E. Muff, Xiaoyang Zhao, Sandra L. Olson & Paul V. Ferkul. (2015) Self induced buoyant blow off in upward flame spread on thin solid fuels. Fire Safety Journal 71, pages 279-286.
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Andres F. Osorio, A. Fernandez Pello, David L. Urban & Gary A. Ruff. (2013) Low-pressure flame spread limits of fire resistant fabrics. Low-pressure flame spread limits of fire resistant fabrics.
Andres F. Osorio, Carlos Fernandez-Pello, David L. Urban & Gary A. Ruff. (2013) Limiting conditions for flame spread in fire resistant fabrics. Proceedings of the Combustion Institute 34:2, pages 2691-2697.
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Andres Osorio, A. Fernandez Pello, David Urban & Gary Ruff. (2012) External Radiant Flux and Oxygen Concentration as Conditions for Concurrent Flame Spread in Fabrics. External Radiant Flux and Oxygen Concentration as Conditions for Concurrent Flame Spread in Fabrics.

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