Prediction of thermal degradation of thermoprotective materials on the basis of their composition and properties of components

Abstract: Thermal decomposition of thermoprotective materials based on phenolformaldehyde resin and carbon cloth with different contents of components is studied. Physical and mathematical models for the process are proposed. It is shown that the mass loss in carbon fiber reinforced plastics is determined by thermal degradation of the components and can be described by a generic kinetic scheme with a given set of thermokinetic constants. The mass loss of materials can be predicted by solving a system of ordinary differe… Show more

“…This combination of matrix and reinforcement was chosen as the subject of this work because it is the most prevalent configuration in the composites market, it was the easiest system to procure, and provided the simplest procedure to fabricate samples. The majority of previous work to characterize reinforced polymer composites has been performed on pure materials or composites of a single composition; however, there have been a few notable efforts made to address the effect of composite composition on the burning behavior …”

“…One study that attempted to develop a pyrolysis model that predicted fire response while accounting for composition was conducted by Zinchenko et al . which investigated several compositions of phenol formaldehyde resin/carbon fiber cloth composites while focusing solely on the kinetic reaction mechanisms of thermal degradation . The mass loss model with the kinetic parameters determined for the individual constituents successfully predicted the experimentally measured relative mass of composites with compositions of 35 and 42 wt % resins, although parameters were varied for each configuration, resulting in a model that could not independently predict fire behavior.…”

Pyrolysis model for multiple compositions of a glass reinforced unsaturated polyester composite

“…This combination of matrix and reinforcement was chosen as the subject of this work because it is the most prevalent configuration in the composites market, it was the easiest system to procure, and provided the simplest procedure to fabricate samples. The majority of previous work to characterize reinforced polymer composites has been performed on pure materials or composites of a single composition; however, there have been a few notable efforts made to address the effect of composite composition on the burning behavior …”

“…One study that attempted to develop a pyrolysis model that predicted fire response while accounting for composition was conducted by Zinchenko et al . which investigated several compositions of phenol formaldehyde resin/carbon fiber cloth composites while focusing solely on the kinetic reaction mechanisms of thermal degradation . The mass loss model with the kinetic parameters determined for the individual constituents successfully predicted the experimentally measured relative mass of composites with compositions of 35 and 42 wt % resins, although parameters were varied for each configuration, resulting in a model that could not independently predict fire behavior.…”

Pyrolysis model for multiple compositions of a glass reinforced unsaturated polyester composite

Modeling of the nonlinear dynamic degradation characteristics of fiber-reinforced composite thin plates in thermal environment