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Hull, T Richard; Stec, Anna A (2009)
Publisher: Royal Society of Chemistry
Languages: English
Types: Part of book or chapter of book
Subjects: F100
  • The results below are discovered through our pilot algorithms. Let us know how we are doing!

    • 1 Fire Statistics United Kingdom 2005, Office of the Deputy Prime Minister: London, April 2007.
    • 2 The cost of fires - A review of the information available, Home Office Publications Unit, UK, 1997.
    • 3 ISO TS 19706:2004 Guidelines for assessing the fire threat to people.
    • 4 T. R. Hull, J. M. Carman and D. A. Purser, Prediction of CO evolution from smallscale polymer fires, Polymer International 49, 1259-1265, (2000).
    • 5 ISO 13571:2007, Life-threatening components of fire - Guidelines for the estimation of time available for escape using fire data.
    • 6 P.Blomqvist, and A.Lonnermark, Characterization of the Combustion Products in Largescale Fire Tests: Comparison of Three Experimental Configurations, Fire and Materials. 25, 71-81, (2001).
    • 7 B.Andersson, F.Markert, and G.Holmstedt, Combustion products generated by hetero-organic fuels on four different fire test scales Fire Safety Journal, 40, 439- 465, (2005).
    • 8 T R Hull, J M Carman and D A Purser Prediction of CO evolution from small-scale polymer fires, Polymer International 49, 1259, (2000).
    • 9 A.A.Stec, T.R.Hull, K.Lebek, J.A.Purser, D. A. Purser, The Effect of Temperature and Ventilation Condition on the Toxic Product Yields from Burning Polymers,Fire and Materials 32, 49-60, (2008).
    • 10 T R Hull and K T Paul, Bench-Scale Assessment of Combustion Toxicity - A Critical Analysis of Current Protocols Fire Safety Journal, 42, 340-365 (2007).
    • 11 T.R.Hull, R.E.Quinn, I.G.Areri and D.A.Purser, Combustion toxicity of fire retarded EVA, Polym. Degrad. Stab. 2002, 77, 235-242.
    • 12 M.C.Costache, M.J.Heidecker, E.Manias, G.Camino, A.Frache, G. Beyer, R.K.Gupta, and C.A.Wilkie, The influence of carbon nanotubes, organically modified montmorillonites and layered double hydroxides on the thermal degradation and fire retardancy of polyethylene, ethylene-vinyl acetate copolymer and polystyrene, Polymer, 48, 6532-6545, 2007,
    • 13 K Daimatsu, H Sugimoto, Y Kato, E Nakanishi, K Inomata, Y Amekawa, and K Takemura, Preparation and physical properties of flame retardant acrylic resin containing nano-sized aluminum hydroxide, Polymer Degradation and Stability 92, 1433 -1438, (2007)
    • 14 T.R. Hull, D. Price, Y. Liu, C. L. Wills and J Brady, An investigation into the decomposition and burning behaviour of Ethylene-vinyl acetate copolymer nanocomposite materials Polymer Degradation and Stability 82 (2003) 365-371
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