Research on Surface Damage Characteristics of C/SiC Composites Under Laser-Ultrasonic Hybrid Scratching

XU Jinkai; HUANG Junhan; WANG Jiaqi; YU Zhanjiang; LI Ying

doi:10.16080/j.issn1671-833x.2025.19.014

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Research on Surface Damage Characteristics of C/SiC Composites Under Laser-Ultrasonic Hybrid Scratching

更新时间：2026-03-27

- Research on Surface Damage Characteristics of C/SiC Composites Under Laser-Ultrasonic Hybrid Scratching
- Aeronautical Manufacturing Technology Vol. 68, Issue 19, (2025)
- 作者机构：
  
  1. 长春理工大学跨尺度微纳制造教育部重点实验室,长春,130022
  2. 长春理工大学机电工程学院,长春,130022
- 作者简介：
- 基金信息：
- DOI：10.16080/j.issn1671-833x.2025.19.014
  CLC：
- Published：2025
- 稿件说明：
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XU Jinkai, HUANG Junhan, WANG Jiaqi, et al. Research on Surface Damage Characteristics of C/SiC Composites Under Laser-Ultrasonic Hybrid Scratching[J]. Aeronautical Manufacturing Technology, 2025, 68(19).
DOI：

XU Jinkai, HUANG Junhan, WANG Jiaqi, et al. Research on Surface Damage Characteristics of C/SiC Composites Under Laser-Ultrasonic Hybrid Scratching[J]. Aeronautical Manufacturing Technology, 2025, 68(19). DOI： 10.16080/j.issn1671-833x.2025.19.014.

摘要

碳纤维增强碳化硅基体复合材料（C/SiC）作为典型的陶瓷基复合材料（Ceramic matrix composite，CMC），具有高比强度、高比刚度、耐高温等优异性能，广泛应用于航空、航天、汽车等领域。为了探究不同能场作用下C/SiC 复合材料表面的损伤形式，本文分别对3个典型纤维方向进行了常规刻划（Conventional scratching，CS）、激光辅助刻划（Laser-assisted scratching，LAS）以及激光超声复合刻划（Laser-ultrasonic hybrid scratching，L-UHS），对比3种刻划方式下的刻划力、表面形貌等差异，分析激光超声复合能场对材料表面损伤影响。结果表明，相比于CS 与LAS，L-UHS可有效降低刻划力，提高材料可加工性。L-UHS在不同方向上呈现出不同的断裂方式转变：在平行方向，纤维弯曲断裂失效减少，材料主要失效形式为层间断裂；在倾斜方向和垂直方向，纤维失效形式由弯曲断裂向剪切断裂转变。本文为C/SiC复合材料的激光超声复合加工提供理论指导。

Abstract

As a typical ceramic matrix composite (CMC)

carbon fiber-reinforced silicon carbide matrix composites (C/SiC) exhibit outstanding properties

including high specific strength

high specific stiffness

and high-temperature resistance

making them widely applicable in aviation

aerospace

automotive

and other advanced engineering fields. To investigate the surface damage forms of C/SiC composites under different energy fields

this study conducted conventional scratching (CS)

laser-assisted scratching (LAS)

and laser-ultrasonic hybrid scratching (L-UHS) on three typical fiber orientations. The scratching forces and surface morphologies under these three scratching methods were systematically compared to analyze the influence of laser-ultrasonic hybrid energy fields on surface damage of the material. The results show that

compared with CS and LAS

L-UHS can effectively reduce scratching forces and improve machinability. L-UHS demonstrates distinct fracture mode transitions across different fiber orientations: In the parallel orientation

fiber bending fracture is significantly reduced

and the primary failure mode is interlaminar fracture; In the inclined and perpendicular orientations

the fiber failure mode transitions from bending fracture to shear fracture. This study provides theoretical guidance for laser-ultrasonic hybrid machining of C/SiC composites.

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