Extrusion International 1-2018

29 Extrusion International 1/2018 Increasing competitive pressure to ever higher quality standards means that the requirements are becoming ever greater for manufacturers of fiber-reinforced plastics and other composite materials, especially given that most of the products are used in applications with very high safety standards. End customers, such as in the aviation and automotive industries, require their suppliers to have all materials certified, which is why the quality produced must be fully recorded and documented. Camera-based, all-in-one inspection solutions ensure that composite ma- terials are reliably inspected at high resolutions. The new systems can be deployed and integrated in a targeted fashion, even in highly specialized manufacturing pro- cesses, while covering all customer-specific requirements. Complete inspection and quality documentation in roving/ tape production In the manufacturing of rovings/tapes, where a large amount of windings are produced right next to each other simultaneously, the inspection system monitors the individual rovings/tapes with extremely high accuracy. All relevant defects are detected and classified in realtime. This enables the machine operator to take corrective ac- tion and eliminate defects, thus significantly increasing the share of usable product. In the production of rovings/ tapes, the system is able to measure and evaluate each roving’s/tape`s width, as well as detect split or protruding filaments. The system creates a defects log for each indi- vidual spool, thus ensuring 100% inspection and quality documentation. Comprehensive tools for statistical eval- uations enable additional conclusions to be made regard- ing the manufacturing process, helping to optimize pro- duction lines – saving time, costs and resources. 3D height measurement and synthetic resin inspection for flawless production One of the new and unique methods for surface inspec- tion of fiber-reinforced plastics and composite materials is the 3D height measurement of loosely attached fibers, defects and foreign particles in material lines in topologi- cal expression. The defect height serves as an important criterion for the exact classification of material defects. Damaged areas are fully measured in three dimensions via the 3D sensor (z sensor) to ensure that height-relevant defects can be precisely distinguished from other defects, such as holes, weaving defects, or contamination. This is particularly important for detecting “fuzz balls” (fiber bundles) located on the surface of the materials. Another remarkable feature is the inspection of synthetic resin on pre-preg (pre-impregnated) materials. During the inspec- tion of synthetic resins, cameras are used to inspect the uniform and complete epoxy resin coating of the mate- rial. By doing so, the system also inspects the functional properties of the material. 100% in-line inspection for all process stages Unwanted metal particles can also be reliably detected by integrating metal detectors into the inspection systems. The latest inspection technology has also been upgraded with several other tools. For example, offline recipe opti- mization nowmakes it possible to improve the inspection recipe based on recorded video, independent of ongo- ing operations. This allows for worldwide compliance of the highest quality standards with minimum reject rates, particularly for production on different lines and for fre- quently changing production orders and quality settings. With these new features, the inspection systems will be- come an indispensable tool for achieving the highest level of production efficiency and transparency, ensuring top quality for end customers. The highly sophisticated imag- ing analysis algorithms provide users with comprehensive evaluation options in real time. This is made possible by the state-of-the-art camera and lighting systems, which detect even the smallest and lowest-contrast defects in all process stages. Efficient use of resources thanks to customized data reports All data, such as the classification of defects, is archived for evaluation and subsequent analyses, including fault images. Customized reports support users in avoiding de- fects, reducing reject rates, and minimizing costs – a de- cisive factor in the efficient use of resources. In addition to data analysis, the system is equipped with an interface for the higher-level software architecture EPROMI (En- terprise PROduction Management Intelligence). Thanks to the vertical and horizontal data integration, EPROMI enables data from various lines or even different plants to be displayed and analyzed across the company in a com- parable fashion. ISRA SURFACE VISION GMBH Albert-Einstein-Allee 36-40 45699 Herten, Germany www.isravision.com Typical defects on fiber composites are detected, classified and visualized for the user in real time