激光修复中的若干关键问题及常用检测技术

SEVERAL KEY POBLEMS AND COMMON DETECTION TECHNIQUES IN LASER REPAIR

  • 摘要: 作为金属增材制造的重要分支,激光修复技术是装备再制造等战略性新兴产业的核心技术之一,已在航空航天、国防装备等关键领域获得推广应用。研究结果表明应力、应变场的演化与成型后修复体的缺陷分布、几何形貌等紧密相关,是决定修复质量的关键因素之一。相关参量的在线测量与表征是工业界和学术界广泛关注的重要问题,然而激光修复过程复杂、测量环境恶劣,传统检测方法和技术难以直接应用,迫切需要发展适用于激光修复工程的检测新技术。目前,与激光修复过程相匹配的原位监测手段仍然较为匮乏,对此本文调研分析了激光修复中的关键问题、常用检测技术的优点和所面临的挑战,并进行了展望,可为激光修复工艺研究提供有益借鉴。

     

    Abstract: As an important branch of metal additive manufacturing, laser repair technology is one of the core technologies in strategic emerging industries such as equipment remanufacturing. It has been popularized and applied in key fields such as aerospace and defense equipment. The results show that the evolution of stress and strain fields is closely related to the defect distribution and geometry of laser repaired components, which is key to determine the repair quality. The on-line measurement and characterization of relevant parameters is an important issue attracting widespread concern in industry and academia, however, due to the complexity of the laser repair process and the harsh measurement environment, traditional inspection methods and techniques are difficult to be directly applied to laser repair engineering, so it is urgent to develop new detection techniques suitable for repair engineering. At present, there is still a shortage of in-situ monitoring tools to match the laser repair process. In this paper, we investigate and analyze the key issues in laser repair, the advantages and challenges of commonly used inspection techniques, and give an outlook, which could provide a useful reference for the research of laser repair process.

     

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