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References

  1. Special Study: U.S. Air Carrier Accidents Involving Fire, 1965-1974 and Factors Affecting the Statistics, National Transportation Safety Board, Report NTSB-AAS-77-1, February 17, 1977.
  2. Fire & Smoke: Understanding the Hazards, National Research Council Committee on Fire Toxicology, National Academy Press, Washington, D.C., 1986, Chapter 1
  3. Federal Register, October 26, 1984 p. 43191
  4. R.G. Hill, The Future of Aircraft Cabin Fire Safety, Proceedings of the International Conference for the Promotion of Advanced Fire Resistant Aircraft Materials, Atlantic City, New Jersey, February 9-11, (1993) p. 365
  5. Aircraft Material Fire Test Handbook, DOT/FAA/CT-89/15, September 1990
  6. National Materials Advisory Board, Fire Safety Aspects of Polymeric Material, Volume 6, Aircraft: Civil and Military, Publication NMAB 318-6, Washington, D.C., 1977, p.68
  7. C.P. Sarkos and R.G. Hill, Effectiveness of Seat Cushion Blocking Layer Materials Against Cabin Fires, SAE Technical Paper 821484, Aerospace Congress and Exposition, Anaheim, CA October 25-28, 1992)
  8. V. Babruskas and J.F. Krasny, Prediction of Upholstered Chair Heat Release Rates from Bench Scale Measurements, Fire Safety: Science and Engineering, T.Z Harmathy, ed. ASTM Special Technical Publication 882, Phila., PA 1985, pp.269-284
  9. R.G. Hill, T.I. Eklund, C.P. Sarkos, Aircraft Interior Panel Test Criteria Derived from Full-Scale Fire Tests, DOT/FAA/CT-85/23, September 198520. R.G. Hill, G.R. Johnson, and C.P. Sarkos, Postcrash Fuel Fire Hazard Measurements in a Wide-Body Aircraft Cabin, FAA-NA-79-42 (December 1979)
  10. L.J. Brown, Cabin Hazards From a Large External Fuel Fire Adjacent to an Aircraft Fuselage, FAA-RD-79-65 (August 1979)
  11. J.G. Quintiere, G. Haynes, B.T. Rhodes, Applications of a Model to Predict Flame Spread Over Interior Finish Materials in a Compartment, Proceedings of the International Conference for the Promotion of Advanced Fire Resistant Aircraft Materials, Atlantic City, New Jersey, February 9-11, (1993) p. 207
  12. Materials Research Agenda for the Automotive and Aircraft Industries, National Materials Advisory Board, Commission on Engineering and Technical Systems, National Research Council, NMAB-468, National Academy Press, Washington D.C., 1993
  13. Fire- and Smoke-Resistant Materials for Commercial Aircraft Interiors, NMAB-477-1, National Academy Press, Washington, D.C. 1995
  14. Proceedings of the Committee on Improved Fire- and Smoke-Resistant Materials for Commercial Aircraft Interiors, NMAB-477-2, National Academy Press, Washington, D.C. 1995
  15. P.S. Guard and J.M. Peterson, Future Material Development Trends for Commercial Airplane Interiors, Proceedings of the International Conference for the Promotion of Advanced Fire Resistant Aircraft Materials, Atlantic City, New Jersey, Feb. 9-11, (1993) p. 313
  16. J.A. Milke and A.J. Vizzini, Thermal Response of Fire-Exposed Composites, J.Comp. Techn. & Res., 13(3) 145-151 (1991)
  17. U. Sorathia, T. Dapp, and J. Kerr, Flammability Characteristics of Composites for Shipboard and Submarine Internal Applications, Proc. 36th Int¹l SAMPE Symposium, 36(2), 1868-1877(1991)
  18. U. Sorathia, C.M. Rollhauser, and W. A. Hughes, Improved Fire Safety of Composites for Naval Applications, Fire and Matls., 16 119-125 (1992)
  19. D.S. Malin, Cone Corrosimeter Testing of Fire Retardant and other Polymeric Materials for Wire and Cable Applications, Proceedings of the Nineteenth International Conference on Fire Safety, San Francisco, CA, Jan. 10-14, 1994
  20. R.G. Diehl, Applications of Continuous Fiber Reinforced Thermoplastics in Aircraft Interiors, Proceedings of the International Conference for the Promotion of Advanced Fire Resistant Aircraft Materials, Atlantic City, New Jersey, Feb. 9-11, (1993) p. 93