热固性聚合物
复合材料
材料科学
造型(装饰)
片状模塑料
纤维
压缩成型
模具
作者
Kaiyue Deng,M. Salman Khan,Kun Fu
标识
DOI:10.1016/j.coco.2025.102408
摘要
Continuous carbon fiber thermoset composites are renowned for their exceptional mechanical and thermal properties. However, fabricating complex 3D composites has historically presented challenges due to their structural complexity. This study presents the Additive Preform Molding (APM) strategy, a novel hybrid manufacturing method that integrates additive manufacturing with overmolding to produce high-performance composite structures. APM optimizes the alignment of continuous fibers based on load requirements and enhances structural integrity, starting with the creation of semi-cured preforms. These preforms are precisely shaped into specific configurations and subsequently overmolded with an infusion of short fiber-reinforced epoxy, thus enhancing their mechanical properties and facilitating the design of intricate geometries. The versatility of APM is represented through fabrication of various bracket designs. Mechanical testing reveals a tensile strength of 1109.3 MPa, a tensile modulus of 103.5 GPa, a flexural strength of 854.7 MPa and a flexural modulus of 96.6 GPa, confirming its substantial load-bearing capabilities for high-performance applications. This study demonstrates that APM is not only a viable alternative to traditional composite manufacturing methods but also an ideal solution for producing complex, high-strength 3D composite structures. • Integrates 3D printing with overmolding, enabling high-performance composites. • Semi-cured preforms reconfigure into intricate geometries with their flexibility. • Optimized fiber alignment enhances mechanical integrity through overmolding.
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