An automated non-destructive testing system for seam bondings in automotive serial production

IF 1.68 Q2 Dentistry
Maximilian Klausing, Henning Heuer
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引用次数: 1

Abstract

The joining process of seam bond is used in automobile construction because of the non-visible joints on mounted parts such as doors, hoods or luggage compartment doors. With these components, a structure-providing inner panel is joined with the outer panel, which is visible to the customer. Besides providing stability, particularly in the event of a crash, the joining level is also filled with adhesive to increase the stability and to prevent the ingress of moisture that causes corrosion. These mechanical connections must be tested to ensure that the requirements for proper bonding have been met. As the destructive test used today requires metallographic laboratory with special trained personnel, significant scrap cost and a time consuming process control loop, considerable efforts are being made to develop a capable non-destructive and as far as possible in-line test method. State of the art non-destructive inspection systems for seam bonds are insufficient regarding full part accessibility and reliability in terms of detectability and validation. This paper is focussed on new developed free configurable three-transducer ultrasonic phased array technology including algorithms for data validation and evaluation for an automated process control loop in the automotive car body shop. The paper end with an statistical classification based on an 5-month measurement campaign under industrial in-line conditions. In a first step, a list of possible defects was collected and the detectability in different seam areas was calculated by sound field simulation of the amplitude signals. Second, based on the results from simulation, a measurement setup as excitation sequence was defined. Based on the theoretical findings a inspection system was designed and realized. Within a measurement campaign the inspection system was evaluated in terms of detectability of minimal defect size under non-laboratory conditions. This includes a permanent proof of coupling conditions, monitoring of misalignments, e.g. tilting and surface defects of the car body. In the last step, the testing system is build up and tested within the assembly line. These measurement results show that the identification of common process defects is possible.

Abstract Image

汽车系列生产中焊缝接合的自动无损检测系统
由于车门、引擎盖或行李厢门等安装件的接缝不可见,因此在汽车结构中采用接缝粘合的连接工艺。有了这些组件,提供结构的内部面板与外部面板连接在一起,这对客户是可见的。除了提供稳定性,特别是在发生碰撞的情况下,连接处还填充了粘合剂,以增加稳定性并防止引起腐蚀的湿气进入。必须对这些机械连接进行测试,以确保满足适当连接的要求。由于目前使用的破坏性测试需要金相实验室和受过特殊培训的人员,大量的废料成本和耗时的过程控制回路,因此人们正在努力开发一种能够无损且尽可能在线的测试方法。在可探测性和验证性方面,现有的无损检测系统在零件的可及性和可靠性方面还存在不足。本文主要研究了新开发的可自由配置的三换能器超声相控阵技术,包括用于汽车车身车间自动化过程控制回路的数据验证和评估算法。本文以基于工业在线条件下5个月测量活动的统计分类结束。首先,通过对振幅信号的声场模拟,收集可能存在缺陷的列表,并计算不同煤层区域的可探测性;其次,根据仿真结果,定义了作为激励序列的测量装置。在此基础上,设计并实现了一个检测系统。在测量活动中,根据非实验室条件下最小缺陷尺寸的可检测性对检测系统进行评估。这包括耦合条件的永久证明,监测不对准,例如车身的倾斜和表面缺陷。最后一步是建立测试系统,并在装配线内进行测试。这些测量结果表明,识别常见的过程缺陷是可能的。
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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来源期刊
Applied Adhesion Science
Applied Adhesion Science Dentistry-Dentistry (miscellaneous)
自引率
0.00%
发文量
0
审稿时长
13 weeks
期刊介绍: Applied Adhesion Science focuses on practical applications of adhesives, with special emphasis in fields such as oil industry, aerospace and biomedicine. Topics related to the phenomena of adhesion and the application of adhesive materials are welcome, especially in biomedical areas such as adhesive dentistry. Both theoretical and experimental works are considered for publication. Applied Adhesion Science is a peer-reviewed open access journal published under the SpringerOpen brand. The journal''s open access policy offers a fast publication workflow whilst maintaining rigorous peer review process.
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