Brett A. Bednarcyk scite author profile

Polyether ether ketone (PEEK) is a high-performance, semi-crystalline thermoplastic that is used in a wide range of engineering applications, including some structural components of aircraft. The design of new PEEK-based materials requires a precise understanding of the multiscale structure and behavior of semi-crystalline PEEK. Molecular Dynamics (MD) modeling can efficiently predict bulk-level properties of single phase polymers, and micromechanics can be used to homogenize those phases based on the overall polymer microstructure. In this study, MD modeling was used to predict the mechanical properties of the amorphous and crystalline phases of PEEK. The hierarchical microstructure of PEEK, which combines the aforementioned phases, was modeled using a multiscale modeling approach facilitated by NASA's MSGMC. The bulk mechanical properties of semi-crystalline PEEK predicted using MD modeling and MSGMC agree well with vendor data, thus validating the multiscale modeling approach.

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Meso- and micro-scale modeling of damage in plain weave composites

Bednarcyk

Stier

Simon

et al. 2015

Composite Structures

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Brett A. Bednarcyk

Multiscale Modeling of Composites

Higher-Order Theory for Functionally Graded Materials

An efficient implementation of the generalized method of cells for unidirectional, multi-phased composites with complex microstructures

Multiscale modeling of PEEK using reactive molecular dynamics modeling and micromechanics

Meso- and micro-scale modeling of damage in plain weave composites

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