Research Progress on Molding Processes of Fiber Preforms and Performances Simulation of Composites for Aeronautical Complex Structures
GE Jingran 1 , LIU Zengfei 1 , QIAO Jianwei 1 , LIANG Jun 1, 2
1. Institute of Advanced Structure Technology, Beijing Institute of Technology, Beijing 100081, China;
2. State Key Laboratory of Explosion Science and Technology, Beijing Institute of Technology, Beijing 100081, China
Abstract:In the process of molding fiber preforms, the internal yarns of composite structures such as aero-engine blade and casing will interact with each other such as extrusion, dislocation, and twisting between fiber bundles, and the warp and weft yarns are irregularly distributed in terms of cross-sectional shape, fiber volume content and path. The highly non-uniformity of the composite mesoscopic structure is extremely susceptible to cause stress concentration in the internal material, which leads to damage. It reduces the reliability of the structure, and significantly increases the difficulty of mechanical performance analysis and evaluation of composite structures. This paper summarizes and reviews the current research status of the mechanical behavior analysis methods for advanced composites and its preformed complex structures from three aspects: simulation of fiber preform molding process, mesoscopic modelling, and mechanical performance analysis. The application of the digital element approach to the simulation of fiber preform molding processes for needle-punched composites and 3D woven composites is highlighted. And the development status of mesoscopic modeling that considers the real structural geometry of composites and mechanical property prediction methods is summarized and evaluated. In view of the problems and challenges of numerical simulation research on the manufacturing processes and mechanical properties of aeronautical complex structures of composites, a research idea of establishing data-driven efficient multiscale analysis method for complex structures by combining virtual fiber molding process simulation is proposed. In this way, the mapping relationship of composite structure molding process–mesoscopic structure–macroscopic mechanical properties is revealed, which will be able to optimize the composite structures manufacturing process and provide theoretical support to further realize the digital technology of aeronautical composite equipment.
葛敬冉,刘增飞,乔健伟,梁军. 航空复杂结构纤维预制体成型工艺与复合材料性能仿真研究进展[J]. 航空制造技术, 2022, 65(16): 14-30.
GE Jingran,LIU Zengfei,QIAO Jianwei,LIANG Jun. Research Progress on Molding Processes of Fiber Preforms and Performances Simulation of Composites for Aeronautical Complex Structures[J]. Aeronautical Manufacturing Technology, 2022, 65(16): 14-30.