4.7 Review

Laser Transmission Welding of Semi-Crystalline Polymers and Their Composites: A Critical Review

Journal

POLYMERS
Volume 13, Issue 5, Pages -

Publisher

MDPI
DOI: 10.3390/polym13050675

Keywords

Industry 4; 0; laser transmission welding; semi-crystalline polymers; composites; carbon black; characterisation; laser welding of polymers; laser power; scanning speed; clamping pressure

Funding

  1. North West Centre for Advanced Manufacturing (NWCAM) project - European Union's INTERREG VA Programme

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This review provides an overview of the current status and future perspectives of laser transmission welding (LTW) of semi-crystalline (SC) polymers, focusing on parameters and phenomena such as inter-diffusion and microstructural changes. It discusses the impact of carbon black and nucleating agent on weld strength, as well as the critical laser parameters of power, scanning speed, and clamping pressure. It also highlights innovative ideas and essential characterisation techniques for polymer joining applications in Industry 4.0 smart manufacturing.
The present review provides an overview of the current status and future perspectives of one of the smart manufacturing techniques of Industry 4.0, laser transmission welding (LTW) of semi-crystalline (SC) polymers and their composites. It is one of the most versatile techniques used to join polymeric components with varying thickness and configuration using a laser source. This article focuses on various parameters and phenomena such as inter-diffusion and microstructural changes that occur due to the laser interaction with SC polymers (specifically polypropylene). The effect of carbon black (size, shape, structure, thermal conductivity, dispersion, distribution, etc.) in the laser absorptive part and nucleating agent in the laser transmissive part and its processing conditions impacting the weld strength is discussed in detail. Among the laser parameters, laser power, scanning speed and clamping pressure are considered to be the most critical. This review also highlights innovative ideas such as incorporating metal as an absorber in the laser absorptive part, hybrid carbon black, dual clamping device, and an increasing number of scans and patterns. Finally, there is presented an overview of the essential characterisation techniques that help to determine the weld quality. This review demonstrates that LTW has excellent potential in polymer joining applications and the challenges including the cost-effectiveness, innovative ideas to provide state-of-the-art design and fabrication of complex products in a wide range of applications. This work will be of keen interest to other researchers and practitioners who are involved in the welding of polymers.

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