陈玉华,刘胜丽,徐钲航,等. 激光熔覆质量在线监测技术研究进展[J]. 失效分析与预防,2026,xx( ):1-15.
    引用本文: 陈玉华,刘胜丽,徐钲航,等. 激光熔覆质量在线监测技术研究进展[J]. 失效分析与预防,2026,xx( ):1-15.
    CHEN Yuhua,LIU Shengli,XU Zhenghang,et al. Progress on online monitoring technology of laser cladding quality[J]. Failure analysis and prevention,2026,xx( ):1-15.
    Citation: CHEN Yuhua,LIU Shengli,XU Zhenghang,et al. Progress on online monitoring technology of laser cladding quality[J]. Failure analysis and prevention,2026,xx( ):1-15.

    激光熔覆质量在线监测技术研究进展

    Progress on Online Monitoring Technology of Laser Cladding Quality

    • 摘要: 激光熔覆(LC)技术作为一种先进的再制造与表面工程技术,在修复损伤部件、延长服役寿命方面具有不可替代的价值。然而,其快速非平衡的加工过程易受多工艺参数耦合影响,引发孔隙、裂纹、未熔合等缺陷,严重制约了构件质量的服役性能与可靠性。因此,LC过程实时感知与缺陷早期预警的在线监测技术成为当前研究的重点之一。通过该领域的文献调研,综述了LC缺陷的形成原因及其关键影响因素,重点探讨了通过融合视觉、热成像、声发射及光谱等多源传感信号技术对LC过程中熔池、温度等变化进行实时监控,结合人工智能模型对缺陷类型进行识别分类,以期实现对熔覆层质量的精细化控制。最后展望了LC在线监测和控制技术向智能化与自动化发展的趋势,从而提高LC技术在高端装备再制造过程中的可靠性。

       

      Abstract: As an advanced remanufacturing and surface engineering technology, laser cladding (LC) offers irreplaceable value in repairing damaged components and extending their service life. However, its rapid non-equilibrium processing is highly susceptible to the coupling effects of multiple process parameters. These interactions can induce defects such as porosity, cracks, and lack of fusion, which severely compromise both the service performance and reliability of the components. Consequently, online monitoring technology for real-time perception of the LC processes and early defect warning has become a key focus of current research. Through a comprehensive literature review in this field, the study summarizes the causes and key influencing factors of LC defects. It focuses on exploring the real-time monitoring of molten pool and temperature changes during the LC process by integrating multi-source sensing signals including visual, thermal imaging, acoustic emission, and spectral data. Combined with artificial intelligence models for defect classification and identification, this work aims to achieve refined control for cladding layer quality. Finally, future development prospects are outlined for the intelligent and automated online monitoring and control technologies for LC, so as to enhance the reliability of LC technology in advanced equipment remanufacturing processes.

       

    /

    返回文章
    返回