References
- Branca, C., and Di Blasi, C. 2015. A lumped kinetic model for banana peel combustion. Thermochim. Acta, 614, 68–75.
- Brown, M.E., et al. 2000. Computational aspects of kinetic analysis. Part A: the ICTAC kinetics project-data, methods and results. Thermochim. Acta, 355(1–2), 125–143.
- Bruce Prime, R., et al. 2009. Thermogravimetric Analysis (TGA). In Menczel, J.D., and Prime, R.B., eds. Thermal Analysis of Polymers: Fundamentals and Applications. Hoboken: John Wiley & Sons, Inc., pp. 241–385.
- Carroccio, S., Puglisi, C., and Montaudo, G. 1999. Thermal degradation mechanisms of polyetherimide investigated by direct pyrolysis mass spectrometry. Macromol. Chem. Phys., 200(10), 2345–2355.
- Doyle, C.D. 1962. Estimating isothermal life from thermogravimetric data. J. Appl. Polym. Sci., 6(24), 639–642.
- DuPont. 2001. Technical Guide for NOMEX® Brand Fiber, DuPont, s.l. Richmond, VA.
- Flynn, J., and Wall, L.A. 1966. General treatment of thermogravimetry of polymers. J. Res. Natl. Bureau Standards-A., 70A(6), 487–523.
- Friedman, H.L. 1964. Kinetics of thermal degradation of char-forming plastics from thermogravimetry. J. Polym. Sci.: Polym. Symposia, 6(1), 183–195.
- Huang, X. 2016. Fundamental Study of Smouldering Combustion of Peat in Wildfires, Imperial College, London.
- Kissinger, H.E. 1956. Variation of peak temperature with heating rate in differential thermal analysis. J. Res. Natl. Bur. Stand (1934), 67(4), 217–221.
- Kissinger, H.E. 1957. Reaction kinetics in differential thermal analysis. Anal. Chem., 29(11), 1702–1706.
- Kleinhenz, J.E., and T’ien, J.S. 2007. Combustion of Nomex® III fabrics in potential space habitat atmosphere: cyclic flame spread phenomenon. Combustion Sci. Technol., 179(10), 2153–2169.
- Kotresh, T.M., et al. 2006. Effect of heat flux on the burning behaviour of foam and foam/Nomex III fabric combination in the cone calorimeter. Polym. Test, 25(6), 756–766.
- Lautenberger, C., Rein, G., and Fernandez-Pello, C. 2006. The application of a genetic algorithm to estimate material properties for fire modeling from bench-scale fire test data. Fire Saf. J., 41(3), 204–214.
- Li, J., and Stoliarov, S.I. 2013. Measurement of kinetics and thermodynamics of the thermal degradation for non-charring polymers. Combus. Flame, 160(7), 1287–1297.
- Li, J., and Stoliarov, S.I. 2014. Measurement of kinetics and thermodynamics of the thermal degradation for charring polymers. Polym. Degrad. Stab., 106, 2–15.
- Liu, X., and Yu, W. 2006. Evaluating the thermal stability of high performance fibers by TGA. J. Appl. Polym. Sci., 99(3), 937–944.
- Lyon, R., and Safronava, N. 2013. A comparison of direct methods to determine n-th order kinetic parameters of solid thermal decomposition for use in fire models. J. Therm. Anal. Calorim., 114, 213–227.
- McKinnon, M.B., Stoliarov, S.I., and Witkowski, A. 2013. Development of a pyrolysis model for corrugated cardboard. Combus. Flame, 160(11), 2595–2607.
- Ozawa, T. 1965. A new method of analyzing thermogravimetric data. Bull. Chem. Soc. Jpn., 38(11), 1881–1886.
- Seebauer, V., Petek, J., and Staudinger, G. 1997. Effects of particle size, heating rate and pressure on measurement of pyrolysis kinetics by thermogravimetric analysis. Fuel, 76(13), 1277–1282.
- Sellers, R.D., and Carr, J.V.J. 2007. Performance of Nomex Military Uniforms in Attacks by Flame Field Expedient Weapons - A Literature Study, Tyndall AFB, FL: Air Force Research Laboratory.
- Shang, W. 2016. Laboratory-Scale Evaluation of Aramid Blend Material as a Fire Barrier for Flexible Polyurethane Foam, Case Western Reserve University, Cleveland.
- Stoliarov, S.I., and Lyon, R., 2008. Thermo-kinetic model of burning for pyrolyzing materials. Karlsruhe, Fire Safety Science–Proceedings of the ninth international symposium, p. 1141–1152.
- Stoliarov, S.I., Raffan-Montoya, F., Walters, R.N., and Lyon, R.E. 2016. Measurement of the global kinetics of combustion for gaseous pyrolyzates of polymeric solids containing flame retardants. Combus. Flame, 173, 65–76.
- Villar-Rodil, S., Martinez-Alonso, A., and Tascon, J.M.D. 2001a. Studies on pyrolysis of Nomex polyaramid fibers. J. Anal. Appl. Pyrolysis, 58-59(1), 105–115.
- Villar-Rodil, S., Paredes, J.I., Martinez-Alonso, A., and Tascon, J.M.D. 2001b. Atomic force microscopy and infrared spectroscopy studies of the thermal degradation of Nomex aramid fibers. Chem. Mater., 13(11), 4297–4304.
- Villar-Rodil, S., Paredes, J.I., Martínez-Alonso, A., and Tascon, J.M.D. 2002. Combining thermal analysis with other techniques to monitor the decomposition of poly(m-phenylene isophthalamide). J. Therm. Anal. Calorim, 70(1), 37–43.
- Williams, P., and Besler, S. 1996. The influence of temperature and heating rate on the slow pyrolysis of biomass. Renew. Energy, 7(3), 233–250.