材料科学
挤压
复合材料
陶瓷
纤维
3D打印
陶瓷基复合材料
基质(化学分析)
作者
Zengchan Li,Wenqing Wang,Xiong Gao,Chujing Shen,Gang Wang,Rujie He
标识
DOI:10.1002/adem.202400218
摘要
3D printing is reported in the fabrication of continuous carbon fiber reinforced silicon carbide ceramic matrix composites ( C f /SiC CMCs), however, there are layer defects in the 3D printed materials, manifested as weak mechanical properties between layers. Therefore, it is essential and urgent to study how to improve the mechanical properties of 3D printed C f /SiC CMCs at the layers. In this article, a novel processing technique which combined vertical fiber laying method with material extrusion (ME) 3D printing is proposed to manufacture C f /SiC CMCs. A self‐developed 3D printing fixed‐axis rotating lifting synchronizer is adopted. The vertical fiber laying of continuous carbon fibers ( C f ) in Z ‐direction is introduced into the X − Y printing plane. Five cycles of precursor infiltration and pyrolysis (PIP) are performed to achieve the densification of C f /SiC CMCs. The effects of C f bundle numbers on the flexural strength and fracture work of C f /SiC CMCs are studied. The best performing composite is C f /SiC CMC with six bundles, and the maximum flexural strength and fracture work is 63.84 ± 6.62 MPa and 1291.99 ± 161.39 J m −3 , respectively. Compared with pure SiC, the fracture work of C f /SiC CMC with 6 bundles C f is increased by 2.54 times.
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