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Comparison of Micromechanics Theories for Modeling Discontinuous Long Fiber Reinforced CompositesTwo micromechanics theories, the high fidelity generalized method of cells and Carrera Unified Formulation, are used to model a repeating unit cell of a discrete long fiber composite. The models are used to predict the effective properties of a single fiber with varying fiber-to-fiber end gap lengths, as well as the local stresses in the fiber and matrix. Both models produced similar results and demonstrated that they could capture the complex local load transfer due to the shear lag effect.
Document ID
20230009597
Acquisition Source
Glenn Research Center
Document Type
Conference Paper
Authors
Evan J. Pineda (Glenn Research Center Cleveland, Ohio, United States)
Ibrahim Kaleel (Oak Ridge Associated Universities Oak Ridge, Tennessee, United States)
Brett A. Bednarcyk (Glenn Research Center Cleveland, Ohio, United States)
Sandi G. Miller (Glenn Research Center Cleveland, Ohio, United States)
Date Acquired
June 28, 2023
Subject Category
Composite Materials
Mechanical Engineering
Meeting Information
Meeting: 38th American Society for Composites (ASC) Annual Technical Conference
Location: Boston, MA
Country: US
Start Date: September 17, 2023
End Date: September 20, 2023
Sponsors: American Society for Composites
Funding Number(s)
WBS: 966826.02.03.1655.23
INTERAGENCY: ONR SAA3-1697
Distribution Limits
Public
Copyright
Public Use Permitted.
Technical Review
Single Expert
Keywords
discrete long fiber composites
chopped fiber composites
micromechanics
shear lag
repeating unit cell
high fidelity generalized method of cells
Carrera Unified Formulation

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