Kinetics05_OSS
Technology No. CP02971
Kinetics05_OSS uses a variety of linear and nonlinear regression methods, depending on the model to be fitted. Isoconversional methods use linear regression, supplemented by empirical correlations between model parameters and reaction profile characteristics. Distributed activation energy and nucleation-growth models use nonlinear regression, with the exception of the discrete distribution model, which uses a nested constrained linear-nonlinear regression method.
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swap_vertical_circlemode_editAuthors (2)Robert L. BraunAlan K. Burnham
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swap_vertical_circlelibrary_booksReferences (6)
- Braun, R.L. and Burnham, A.K. (1999), Global Kinetic Analysis of Complex Materials, Energy & Fuels, 13, 1-22
- Burnham, A.K. (2000), Application of the Šesták-Berggren Equation to Organic and Inorganic Materials of Practical Interest, Journal of Thermal Analysis and Calorimetry, 60, 895-908
- Burnham, A.K. (2000), Computational aspects of kinetic analysis.: Part D: The ICTAC kinetics project — multi-thermal–history model-fitting methods and their relation to isoconversional methods, Thermochimica Acta, 335, 165-170
- Burnham, A.K., Weese, R.K., and Weeks, B.L. (2004), A Distributed Activation Energy Model of Thermodynamically Inhibited Nucleation and Growth Reactions and Its Application to the β−δ Phase Transition of HMX, The Journal of Physical Chemistry B, 108, 19432-19441
- Burnham, A.K. and Weese, R.K. (2005), Kinetics of thermal degradation of explosive binders Viton A, Estane, and Kel-F, Thermochimica Acta, 426, 85-92
- Burnham, A.K. (2005), An nth-order Gaussian energy distribution model for sintering, Chemical Engineering Journal, 108, 47-50
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