Study on the fabrication and mechanical properties of SiCp/SiC gradient lattice structure based on selective laser sintering technology

• Published in: Virtual and physical prototyping Vol. 19; no. 1
• Main Authors: Fan, MingXing, Cheng, Su, Lu, DeCai, Zhang, LiWei, Du, Qing, Feng, YiCheng, Lin, YuDong, Chen, YongTao, Du, QiMing
• Format: Journal Article
• Language: English
• Published: Taylor & Francis 31.12.2024; Taylor & Francis Group
• Subjects: 3D printing; finite element analysis; selective laser sintering
• ISSN: 1745-2759; 1745-2767
• DOI: 10.1080/17452759.2024.2415436

Conventional uniform lattice structures are subject to non-uniform loads or concentrated loads alternating back and forth during service, which can no longer meet the refinement requirements. In this paper, SiCp/SiC gradient lattice structures are prepared by selective laser sintering (SLS) technology and polymer impregnation pyrolysis (PIP) process, and compression standard specimens with different tilt angles are prepared according to the structural model by changing the printing direction, to analyze the influence of the anisotropic properties of the materials due to the SLS molding technology on the load-bearing behaviour of the core rod, and to further study the mechanical properties of the gradient lattice structures and the Failure behaviour. The results show that: with the increase of the angle of printing direction, the compression performance of the densification specimen decreases gradually; the compression strength of the gradient lattice structure is 13.95 MPa. During compression, the core rods with tilt angles of 60° and 75° mainly exhibit shear failure and crushing failure, respectively. The theoretical and simulated compression strengths were 16.08 and 16.32 MPa, respectively. This paper provides a new insight into the research and application of gradient lattice structures.