期刊
COMPOSITE STRUCTURES
卷 301, 期 -, 页码 -出版社
ELSEVIER SCI LTD
DOI: 10.1016/j.compstruct.2022.116182
关键词
Peridynamic Unit Cell; Short-fiber composites; Woven composites; Effective material properties; Micromechanical modeling; Damage mechanisms
资金
- National Natural Science Foundation of China [11902197, 11972234]
- Shanghai Sailing Program [19YF1421700]
- Shanghai Jiao Tong University
This study presents a novel three-dimensional micromechanical model to investigate the effective elastic properties and damage mechanisms in composites. It establishes relationships between microstructural features, such as shape, size, and distribution of fibers, and damage initiation, while considering the effect of temperature change. The model allows for the evaluation of material properties from a single load case and does not require surface correction.
This study presents a novel three-dimensional (3D) micromechanical peridynamic (PD) model to establish re-lationships between microstructural features such as shape, size and distribution of fibers, damage initiation, and size-effect relationships. It specifically permits to investigate the effective elastic properties and damage mech-anisms in composites. It enables the application of pure strain, pure stress and mixed stress-strain constraints while including the effect of temperature change. Also, it permits the evaluation of effective material properties from a single load case. Periodic boundary conditions are applied naturally by completing the interaction domain using material points from the opposite side of microstructure. Also, this 3D PD micromechanical model does not require any surface correction for both homogenization and dehomogenization. Complex heterogeneous mi-crostructures of composites are constructed and analyzed by state-based PD. Material variability is taken into consideration during the progressive damage analysis to capture more realistic failure mechanisms. Peridynamic predictions recover results available in the literature; thus, verifying the accuracy and effectiveness of the present micromechanical model.
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