Predicting char yield of high-temperature resins
Document Type
Article
Publication Date
1-15-2023
Department
Department of Mechanical Engineering-Engineering Mechanics
Abstract
A simulation technique has been developed for predicting the char yield of organic resins during high-temperature processing. In silico methods can aid in the screening of new advanced materials for a number of important properties, but no chemistry-sensitive protocol currently exists for predicting the important experimental value of char yield. The proposed method utilizes a reactive force field (ReaxFF) to model the chemical transformation of precursor monomers into carbonized structures during three processing stages: ramp-up to pyrolysis temperatures (∼3000 K), pyrolysis, and quenching. Achieving good agreement with experimental char yields requires continuous removal of small by-product molecules to mimic outgassing, and the application of high pressure to encourage the formation of a dense, glassy network. Six different resin chemistries were investigated: an ethynyl, a phenylethynyl, a cyanate ester, a phthalonitrile, acrylonitrile, and adamantane. These candidates represent a diverse group of precursors with respect to initial cyclic content, presence of heteroatoms, and types of reactive groups. The protocol developed accurately predicts the relative char yield between the investigated chemistries and provides quantitative agreement with experimental values, especially for high char yield resins. Several simulated properties of the carbonized structures are compared with experimental results, including outgassing products, morphology of the final chemical configurations, cyclic content, and mechanical properties.
Publication Title
Carbon
Recommended Citation
Gissinger, J.,
Zavada, S.,
Smith, J.,
Kemppainen, J.,
Gallegos, I.,
Odegard, G.,
Siochi, E.,
&
Wise, K.
(2023).
Predicting char yield of high-temperature resins.
Carbon,
202, 336-347.
http://doi.org/10.1016/j.carbon.2022.11.002
Retrieved from: https://digitalcommons.mtu.edu/michigantech-p/16563