Laser transmission welding of Poly(vinyl chloride) and polyamide 66 based on green femtosecond laser surface modification

Optics & Laser Technology Pub Date : 2024-09-07 DOI:10.1016/j.optlastec.2024.111737

Dongyang Wang, Minqiu Liu, Sizhi Xu, Jianxun Lu, Ying Zhang, Jianpang Zhai, Shuangchen Ruan, Deqin Ouyang, Chunbo Li

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Abstract

To improve the bonding strength of unweldable poly(vinyl chloride) (PVC) and polyamide 66 (PA66), a surface treatment method using green femtosecond laser (GFL) to modify PVC before welding was proposed in this study. The experiments of GFL surface modification, 1940 nm laser transmission welding (LTW), mechanical properties test and related characterization were carried out. The effects of GFL parameters on the physical and chemical properties of the modified surface and the bonding strength of the dissimilar joints were investigated in detail. The bonding mechanism of PVC/PA66 joints was analyzed comprehensively. The results showed that laser modification induced the deposition of many oxygen-containing functional groups on the PVC surface. These oxygen-containing functional groups form a highly polar modified layer on the surface, thereby improving the miscibility and welding performance of PVC/PA66. Finally, the modification and welding parameters were optimized based on the response surface methodology (RSM), and the maximum shear strength was 8.9 MPa.

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基于绿色飞秒激光表面改性的聚氯乙烯和聚酰胺 66 激光透射焊接

为了提高不可焊接聚氯乙烯（PVC）和聚酰胺 66（PA66）的粘接强度，本研究提出了一种在焊接前使用绿色飞秒激光（GFL）对聚氯乙烯进行改性的表面处理方法。实验中进行了 GFL 表面改性、1940 nm 激光透射焊接（LTW）、力学性能测试及相关表征。详细研究了 GFL 参数对改性表面物理和化学性质以及异种接头粘接强度的影响。全面分析了 PVC/PA66 接头的粘接机理。结果表明，激光改性在 PVC 表面沉积了许多含氧官能团。这些含氧官能团在表面形成了高极性改性层，从而改善了 PVC/PA66 的相溶性和焊接性能。最后，根据响应面法（RSM）对改性和焊接参数进行了优化，最大剪切强度为 8.9 兆帕。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Optics & Laser Technology

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