Digital light processing technology (DLP) is an effective additive manufacturing method to fabricate ceramic components with high precision and complicated structure. Here, a novel strategy to prepare chopped carbon fibers (Cf)/SiC ceramic composites through stereolithography Cf combined with liquid silicon infiltration is presented. The photosensitive suspension including Cf was prepared and Cf preforms with convoluted geometrical shapes were manufactured by DLP technology. The 3D-architectured bodies possessed high printing stableness and accuracy with the forming deviation of less than 5%. Moreover, the tightly bonded adjacent layers can contribute to the synergistic effect from curing adhesion of photosensitive resin and crisscrossed pinning of chopped carbon fibers. As-prepared components after liquid silicon infiltration were dense and exhibited maximum flexural strength of 262.6 MPa. This strategy demonstrates a promising prospect and tantalizing possibility to fabricate SiC ceramic composites with complex shapes and structures.