Study on the Grooved Morphology of CMC-SiCf/SiC by Dual-Beam Coupling Nanosecond Laser

Abstract: Due to the excellent properties of high hardness, oxidation resistance, and high-temperature resistance, silicon carbide fiber reinforced silicon carbide ceramic matrix composite (CMC-SiCf/SiC) is a typical difficult-to-process material. In this paper, according to the relationship between the spatial posture of dual beams and the direction of the machining path, two kinds of scanning methods were set up. The CMC-SiCf/SiC grooving experiments were carried out along different feeding directions (transverse scan… Show more

“…Silicon-carbide-fiber-reinforced silicon carbide ceramic matrix composite (CMC-SiC f / SiC) is a typical difficult-to-process material. Chen et al [6] investigated the grooved morphology of CMC-SiC f /SiC using a dual-beam coupling nanosecond laser. Two kinds of scanning methods were set up according to the relationship between the spatial posture of the dual beams and the direction of the machining path.…”

Laser Processing and Multi-Energy Field Manufacturing of High-Performance Materials

“…Silicon-carbide-fiber-reinforced silicon carbide ceramic matrix composite (CMC-SiC f / SiC) is a typical difficult-to-process material. Chen et al [6] investigated the grooved morphology of CMC-SiC f /SiC using a dual-beam coupling nanosecond laser. Two kinds of scanning methods were set up according to the relationship between the spatial posture of the dual beams and the direction of the machining path.…”

Laser Processing and Multi-Energy Field Manufacturing of High-Performance Materials

Micro-grooves machining and optimizing on SiC/SiC composites by femtosecond laser-based on response surface methodology

Water jet guided laser grooving of SiCf/SiC ceramic matrix composites