CFRP 激光脱漆研究:形态演变、损伤机理和粘合剂性能

Junyi Gu, Xuan Su, Wenqin Li, Meiling Xin, Donghe Zhang, Yang Jin, Jie Xu, Bin Guo
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引用次数: 0

摘要

基材损伤阻碍了激光脱漆(LPS)在碳纤维增强聚合物(CFRP)上的应用,但损伤机理目前尚不清楚。本文首先研究了 CFRP 的激光脱漆特性,如脱漆深度、表面形态和动态行为。随后,通过理论分析和有限元法详细探讨了 CFRP 的表面损伤机理,并研究了基材损伤对粘接性能的影响。结果表明,LPS 很难获得完全无油漆残留的表面。强烈的激光等离子体冲击和树脂热解压力会导致树脂在油漆完全烧蚀之前开裂和剥落。碳纤维在热量和外力的作用下断裂并向外抛出,纤维轻微断裂的表面将有利于与涂料粘合。
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Investigation on laser paint stripping of CFRP: Morphological evolution, damage mechanism, and adhesive performance
Damage to the substrate hinders the application of laser paint stripping (LPS) on carbon fiber reinforced polymers (CFRP), but the damage mechanism is currently unknown. In this paper, the LPS characteristics of CFRP, such as paint stripping depth, surface morphology and dynamic behavior, are firstly obtained. Subsequently, the surface damage mechanism of CFRP is discussed in detail by theoretical analysis and finite element method, and the effect of substrate damage on adhesive properties is investigated. The results show that it is difficult for LPS to obtain a complete surface free of paint residue. The strong laser plasma impact and resin pyrolysis pressure cause the resin to crack and flake before the paint is fully ablated. The carbon fiber then breaks and are thrown outward by heat and forces, and the surface with slightly fracture of the fiber will facilitate bonding with the paint.
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