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8. Association for Specialist Fire Protection (2008) Guidance on the classification for reaction to fire performance of fire retardant coating systems: Enhancing the fire performance of surfaces in buildings [Orange Book], Association for Specialist Fire Protection
9. J Bregulla & V Enjily (2004) Structural fire engineering design: materials behaviour - timber, BRE Digest 487 Part 4, BRE
10. British Standards Institution (1997) Fire tests on buildings and structures Part 7: Method of test to determine the classification of the surface spread of flame of products [Third Edition], BSI
11. Wood Protection Association (2007) Industrial Flame Retardant Treatment of Solid Timber and Panel Products, The Wood Protection Assocation
12. Adams EH, Moore GL & Brazier JD (1979) The effect of flat-retardant treatments on some mechanical properties of wood, BRE Information Paper 24/79, BRE
13. Chuang C.S. et al (2008) Effects of intumescent formulation for acrylic-based coating on flame-retardancy of painted red lauan (Parashorea spp.) thin plywood, Wood Science & Technology 2008 42:593-607, Available through <springerlink.com> [accessed 30 October]
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2. Wikipedia (2010) Flame retardant: Health Concerns [online] Available at <http://en.wikipedia.org/wiki/Flame_retardant#Health_concerns [accessed Thursday 28th October]
3. BBC News (2010) Concern over fires in timber frames under construction [online] Available at: <http://www.bbc.co.uk/news/uk-11354139> [accessed Friday 29th October]
4. Department for Communities and Local Government (2010) Fire Statistics Monitor April 2009 to March 2010, Issue No. 03/10, Crown Copyright
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6. Health & Safety Executive (2010) Fire safety in construction: Guidance for clients, designers and those managing and carrying out construction work involving significant fire risks, 2nd edition, HSE Books, Crown Copyright
7. TRADA Technology (2003) Flame retardant treatments for timber, TRADA Wood Information Section 2/3 Sheet 3: Timber in Fire, TRADA Technology Ltd 2003
8. Association for Specialist Fire Protection (2008) Guidance on the classification for reaction to fire performance of fire retardant coating systems: Enhancing the fire performance of surfaces in buildings [Orange Book], Association for Specialist Fire Protection
9. J Bregulla & V Enjily (2004) Structural fire engineering design: materials behaviour - timber, BRE Digest 487 Part 4, BRE
10. British Standards Institution (1997) Fire tests on buildings and structures Part 7: Method of test to determine the classification of the surface spread of flame of products [Third Edition], BSI
11. Wood Protection Association (2007) Industrial Flame Retardant Treatment of Solid Timber and Panel Products, The Wood Protection Assocation
12. Adams EH, Moore GL & Brazier JD (1979) The effect of flat-retardant treatments on some mechanical properties of wood, BRE Information Paper 24/79, BRE
13. Chuang C.S. et al (2008) Effects of intumescent formulation for acrylic-based coating on flame-retardancy of painted red lauan (Parashorea spp.) thin plywood, Wood Science & Technology 2008 42:593-607, Available through <springerlink.com> [accessed 30 October]
14. The Steel Construction Institute (2010) Code of Practice for Off-site Applied Thin Film Intumescent Coatings [Second Edition], The Steel Construction Institute
15. Joseph Green (1995) An Overview of the Fire Retardant Chemicals Industry, Past-Present-Future, Fire and Materials Vol 19 197-204, Available through <onlinelibrary.wiley.com> [accessed 7th October]
16. Beard A & Marzi T (undated) Sustainable phosphorus based flame retardants: A case study of the environmental profile in view of European legislation on chemicals and end-of-life (REACH, WEEE, ROHS), Available through <flameretardants-online.com> [accessed 30th October]
17. Marney D.C.O, Russell L.J. & Mann R. (2008) Fire performance of wood (Pinus radiata) treated with fire retardants and a wood preservative, Fire and Materials Vol 32 pp 357-370, Available through <onlinelibrary.wiley.com> [accessed 14th October]
18. Horrocks A.R & Price D. (2001) Fire Retardant Materials, Woodhead Publishing Ltd
19. Freeman IL, Butlin RN & Hunt JH (1983) Timber Framed Housing - a technical appraisal, Building Research Establishment, Department of the Environment, Report 41
20. Andrew Buchanan (2000) Fire Performance of Timber Construction, Progress in Structural Engineering and Materials Vol 2 pp278-289, Available through <onlinelibrary.wiley.com> [accessed 25th October]
21. Lau PWC, White R, Van Zeeland I (1999) Modelling the Charring Behaviour of Structural Lumber, Fire and Materials Vol 23 pp209-216, Available through <onlinelibrary.wiley.com> [accessed 29th October]
22.Frangi A, Fontana M (2003) Charring rates and temperature profiles of wood sections, Fire and Materials Vol 27 pp91-102, ETH (Institute of Structural Engineering, Zurich), Available through <onlinelibrary.wiley.com> [accessed 29th October]
23. AG White (1979) Flame Retardant Paints, Progress in Organic Coatings Vol 7 pp279-287, Available through <www.sciencedirect.com> [accessed 30th October]
24. Jinxue Jaing et al (2010) Effect of nitrogen phosphorus flame retardants on thermal degradation of wood, Construction and Building Materials Vol 24 pp2633-2637, Available through <sciencedirect.com> [accessed 30th October]
25. Garba B (1999) Effect of Zinc borate as flame retardant formulation on some tropical woods, Polymer Degradation and Stability Vol 64 pp517-522, Available through <www.sciencedirect.com> [accessed 30th October]
26. White RH & Dietenberger (2008) Wood Products: Thermal Degradation and Fire, Encyclopedia of Materials: Science and Technology pp9712-9716, Available through <www.sciencedirect.com> [accessed 30th October]
27. Marc L Janssens (2004) Modelling of the thermal degradation of structural wood members exposed to fire, Fire and Materials Vol 28 pp199-207, Available through <onlinelibrary.wiley.com> [accessed 31st October]
28. PJ Moss et al (2009) Fire performance of bolted connections in laminated veneer lumber, Fire and Materials Vol 33 pp223-243, Available through <onlinelibrary.wiley.com> [accessed 1st November]
29. British Standards Institution (2004)BS EN 1995-1-2:2004 Part 1-2:General - Structural Fire Design, Eurocode 5 - Design of Timber Structures, BSI
30. Browne, F. L. (1958) Theories of the Combustion of Wood and Its Control, Forest Products Laboratory Report, Forest Service, U.S. Department of Agriculture, No.2136
31.Moghtaderi B. (2006) The state-of-the-art in pyrolysis of modelling of lignocellulosic solid fuels, Fire and Materials Vol 30 pp1-34, University of Newcastle, Australia
32. Reszka P. (2008) In-Depth Temperature Profiles in Pyrolyzing Wood, Phd Thesis, University of Edinburgh, Available through <www.era.lib.ed.ac.uk> [accessed 7th October]
33. Reszka P. & Torero J.L. (2006) In Depth Temperature Measurements of Timber In Fires, Proceedings of the 4th International Workshop, Structures in Fire pp921-930, Available through <www.era.lib.ed.ac.uk> [accessed 7th October]
34.Professor Colin Bailey, One stop shop in structural fire engineering: Timber fires, University of Manchester Available at <http://www.mace.manchester.ac.uk/project/research/structures/strucfire/materialInFire/Timber/default.htm> [accessed 7th October]
35. Polymer Science Learning Centre (2002) University of Southern Mississippi Available at http://pslc.ws/fire/howwhy/triangle.htm [accessed 1st November]
36. Timber in construction (undated) Timber stays steady under fire [online] Available at <http://www.timberinconstruction.co.uk/features/timber-stays-steady-underfire> [accessed 14th October]
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38. Designbuild-network (2010) Arch Timber Protection - Fire-Resistant Timber and Applied Fire Retardants for Wood [online] Net Resources Online Available at: <http://www.designbuild-network.com/contractors/fire_detection/arch-timber> [accessed 14th October]
39. Fire Retardant Services (2006) Products [online] Available at <http://www.frsfpp.com/SteelTimber.htm> [accessed 14th October]
40. FireRetard (undated) Benefits of fire retardant wood [online] Available at <http://www.fireretard.com/main.php?langid=1&itemid=1> [accessed 20th October]M
41. Kollman F & Cote W (1968) Principles of Wood Science and Technology, George Allan & Unwin
42. Moss P, Buchanan A, Fragiacomo M & Austruy C (2009) Experimental Testing and Analytical Prediction of the Behaviour of Timber Bolted Connections Subjected to Fire, Fire Technology 46 129-148 2010, Available through <springerlink.com> [Accessed 30 October]
