Application framework of digital twin-driven product smart manufacturing system: A case study of aeroengine blade manufacturing

In the wake of the continuous deepening of the application of new generation information technology in the manufacturing field, digital twin, as a most new active factors for smart manufacturing, has become a new research hot spot. Based on such a background, the article proposes a novel application...

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Published in:International journal of advanced robotic systems 2019-09, Vol.16 (5)
Main Authors: Zhang, Xuqian, Zhu, Wenhua
Format: Article
Language:English
Subjects:
Aerospace engines
Digital mapping
Digital twins
Industrial applications
Machining
Manufacturing
Optimization
Twinning
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description In the wake of the continuous deepening of the application of new generation information technology in the manufacturing field, digital twin, as a most new active factors for smart manufacturing, has become a new research hot spot. Based on such a background, the article proposes a novel application framework of digital twin-driven product smart manufacturing system and analyzes its operation mechanism. Key enabling technologies such as digital twin mapping technology with manufacturing entity, twinning of cyber and physical manufacturing system, as well as twining data-driven machining parameter optimization are also illustrated in detail. Finally, a case of the aeroengine fan blade manufacturing is given to demonstrate the feasibility and effectiveness of the implementation method mentioned above. Meanwhile, potential industrial applications and limitations are discussed as well to provide valuable insights to aeroengine blade manufacturers.
doi_str_mv 10.1177/1729881419880663
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source SAGE Open Access
subjects Aerospace engines
Digital mapping
Digital twins
Industrial applications
Machining
Manufacturing
Optimization
Twinning
title Application framework of digital twin-driven product smart manufacturing system: A case study of aeroengine blade manufacturing
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