Litcius/Paper detail

Large-scale material extrusion-based additive manufacturing of short carbon fibre-reinforced silicon carbide ceramic matrix composite preforms

Wenqing Wang, Xiong Gao, Lu Zhang, Qingsong Ma, Suwen Li, Zengchan Li, Chujing Shen, Gang Wang, Rujie He

2023Virtual and Physical Prototyping35 citationsDOIOpen Access PDF

Abstract

Large-scale short carbon fibre-reinforced silicon carbide (Csf/SiC) ceramic matrix composites (CMCs) have important applications in the field of aerospace engineering. This study proposed the use of material extrusion based additive manufacturing to fabricate large-scale Csf/SiC CMC preforms. In this paper, we determined how the key material extrusion parameters, including solid loading, nozzle diameter and layer height impact the stability of the additively manufactured Csf/SiC CMCs. The solid loading significantly influenced the stability of the Csf/SiC CMCs, and the slurry with 50 vol.% solid loading was better for additive manufacturing. The layer height played a significant role in the void formation in CMCs. It was appropriate for structure retention to set the layer height as 60–75% of the nozzle diameter. The effect of angle from vertical on the stability of out-of-plane structure was also investigated. When the angle was over 40o, the out-of-plane structure additively manufactured without supports tended to collapse. Large-scale Csf/SiC CMC preforms with out-of-plane structures were finally successfully fabricated. This study is believed to provide some fundamental understanding for the fabrication of large-scale fibre-reinforced ceramic matrix composites.

Topics & Concepts

Materials scienceSilicon carbideComposite materialExtrusionCeramicCeramic matrix compositeComposite numberNozzleFabricationNear net shapeMechanical engineeringPathologyAlternative medicineEngineeringMedicineAdditive Manufacturing and 3D Printing TechnologiesAdditive Manufacturing Materials and ProcessesAdvanced ceramic materials synthesis